# SOME DESCRIPTIVE TITLE. # Copyright (C) YEAR Roderick C. I. MacKenzie # This file is distributed under the same license as the oghmanano package. # FIRST AUTHOR , YEAR. # #, fuzzy msgid "" msgstr "" "Project-Id-Version: oghmanano 8.0\n" "Report-Msgid-Bugs-To: roderick.mackenzie@oghma-nano.com\n" "POT-Creation-Date: 2025-07-10 14:53+0100\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" "Language: \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" msgid "Electron current density z" msgstr "" msgid "Position" msgstr "" msgid "Electron current density" msgstr "" msgid "Hole current density" msgstr "" msgid "Drift current density (z)" msgstr "" msgid "Electron current density (drift)" msgstr "" msgid "Diffusion current density (z)" msgstr "" msgid "position" msgstr "" msgid "Electron current density (diffusion)" msgstr "" msgid "Hole current density (drift)" msgstr "" msgid "Hole current density (diffusion)" msgstr "" msgid "Electron current density x" msgstr "" msgid "Drift current density (x)" msgstr "" msgid "Diffusion current density (x)" msgstr "" msgid "Conductivity" msgstr "" msgid "Conductivity (electron)" msgstr "" msgid "Conductivity (hole)" msgstr "" msgid "Diffusion+Drift current density" msgstr "" msgid "Total current density (Jn+Jp)" msgstr "" msgid "|Jny|+|Jnx|+|Jnz|" msgstr "" msgid "|Total current density|" msgstr "" msgid "|Jpy|+|Jpx|+|Jpz|" msgstr "" msgid "Singlet density (S1)" msgstr "" msgid "Singlet density" msgstr "" msgid "Triplet density (T1)" msgstr "" msgid "Triplet density" msgstr "" msgid "Singlet CT (1C)" msgstr "" msgid "Triplet CT (3C)" msgstr "" msgid "Singlet S1 'IMREF'" msgstr "" msgid "Singlet energy" msgstr "" msgid "Triplet T1 'IMREF'" msgstr "" msgid "Triplet energy" msgstr "" msgid "Singlet CT (1C) 'IMREF'" msgstr "" msgid "Triplet CT (3C) 'IMREF'" msgstr "" msgid "Current density" msgstr "" msgid "Drift current density" msgstr "" msgid "Diffusion current density" msgstr "" msgid "Singlet in donor density" msgstr "" msgid "Triplet in donor density" msgstr "" msgid "Ion density" msgstr "" msgid "Singlet 'IMREF'" msgstr "" msgid "Triplet 'IMREF'" msgstr "" msgid "Singlet in donor 'IMREF'" msgstr "" msgid "Triplet in donor 'IMREF'" msgstr "" msgid "Ion energy" msgstr "" msgid "Doping" msgstr "" msgid "Doping density" msgstr "" msgid "Free electron carrier density" msgstr "" msgid "Carrier density" msgstr "" msgid "Free hole carrier density" msgstr "" msgid "Trapped electron carrier density" msgstr "" msgid "Trapped hole carrier density" msgstr "" msgid "Total hole density" msgstr "" msgid "Total electron density" msgstr "" msgid "Change in electron population" msgstr "" msgid "Total charge" msgstr "" msgid "Change in total charge" msgstr "" msgid "Change in hole population" msgstr "" msgid "Excess electron density" msgstr "" msgid "x-position" msgstr "" msgid "y-position" msgstr "" msgid "z-position" msgstr "" msgid "Electron density" msgstr "" msgid "Excess hole density" msgstr "" msgid "Hole density" msgstr "" msgid "Perovskite mobile ion density" msgstr "" msgid "Boundary y0" msgstr "" msgid "True/False" msgstr "" msgid "Boundary y1" msgstr "" msgid "Boundary x0" msgstr "" msgid "Boundary x1" msgstr "" msgid "Boundary z0" msgstr "" msgid "Boundary z1" msgstr "" msgid "Interface free-to-free recombination constant" msgstr "" msgid "Electron tunneling though the interface" msgstr "" msgid "Tunneling-e" msgstr "" msgid "Hole tunneling though the interface" msgstr "" msgid "Tunneling-h" msgstr "" msgid "Interface free-to-trap recombination constant" msgstr "" msgid "Interface free-to-trap recombination constant" msgstr "" msgid "Interface recombination rate" msgstr "" msgid "Material fraction (x)" msgstr "" msgid "Fraction" msgstr "" msgid "Material fraction (y)" msgstr "" msgid "LUMO" msgstr "" msgid "Electron Energy" msgstr "" msgid "HOMO" msgstr "" msgid "Lattice temperature" msgstr "" msgid "Temperature" msgstr "" msgid "Electron temperature" msgstr "" msgid "Hole temperature" msgstr "" msgid "Band gap" msgstr "" msgid "Electron quasi Fermi-level" msgstr "" msgid "Hole quasi Fermi-level" msgstr "" msgid "Potential" msgstr "" msgid "Equlibrium Fermi-level" msgstr "" msgid "Energy" msgstr "" msgid "Relative permittivity" msgstr "" msgid "Joule heating from device" msgstr "" msgid "Heating" msgstr "" msgid "Electron mobility" msgstr "" msgid "Electron mobility z" msgstr "" msgid "Electron mobility x" msgstr "" msgid "Electron mobility y" msgstr "" msgid "Hole mobility" msgstr "" msgid "Hole mobility z" msgstr "" msgid "Hole mobility x" msgstr "" msgid "Hole mobility y" msgstr "" msgid "Average electron mobility" msgstr "" msgid "Mobility" msgstr "" msgid "Free electron generation rate" msgstr "" msgid "Generation rate" msgstr "" msgid "Free hole generation rate" msgstr "" msgid "Free electron loss due to SRH processes (including trapping)" msgstr "" msgid "Recombination rate" msgstr "" msgid "Free hole loss due to SRH processes (including trapping)" msgstr "" msgid "Free electron -> Free hole recombination rate" msgstr "" msgid "Auger recombination" msgstr "" msgid "SRH recombination free holes -> trapped electrons" msgstr "" msgid "Rate" msgstr "" msgid "SRH recombination free electrons -> trapped holes" msgstr "" msgid "SRH relaxation free holes -> trapped holes" msgstr "" msgid "SRH relaxation free electrons -> trapped electrons" msgstr "" msgid "Material number" msgstr "" msgid "Number" msgstr "" msgid "Current map of the bottom contact" msgstr "" msgid "Resistance of bottom of device" msgstr "" msgid "Running Ray tracer\n" msgstr "" msgid "pulse mode not known\n" msgstr "" msgid "pulse time" msgstr "" msgid "step" msgstr "" msgid "Time" msgstr "" msgid "Current" msgstr "" msgid "current density" msgstr "" msgid "current" msgstr "" msgid "Voltage" msgstr "" msgid "Volts" msgstr "" msgid "Photogeneration rate" msgstr "" msgid "Emission" msgstr "" msgid "Charge density" msgstr "" msgid "Suns" msgstr "" msgid "Charge" msgstr "" msgid "ce mode not known\n" msgstr "" msgid "ce mode not known" msgstr "" msgid "ce time" msgstr "" msgid "Simulated polynomial data" msgstr "" msgid "x" msgstr "" msgid "y" msgstr "" msgid "Full transfer matrix based light model" msgstr "" msgid "Generating mesh\n" msgstr "" msgid "Generating morphology\n" msgstr "" msgid "Morphology" msgstr "" msgid "The materials in your device are not configured to emit light\n" msgstr "" msgid "Real" msgstr "" msgid "Imaginary" msgstr "" msgid "Re(i)" msgstr "" msgid "Im(i)" msgstr "" msgid "Frequency" msgstr "" msgid "Real(i)" msgstr "" msgid "Capacitance" msgstr "" msgid "1/C^2" msgstr "" msgid "abs(i)" msgstr "" msgid "phi(i)" msgstr "" msgid "Phase" msgstr "" msgid "Fit error modulation" msgstr "" msgid "Error" msgstr "" msgid "Fit error j/v" msgstr "" msgid "Resistance" msgstr "" msgid "Solving EQE at" msgstr "" msgid "out of memory!\n" msgstr "" msgid "matrix is singular!\n" msgstr "" msgid "Running scanning probe microscopy\n" msgstr "" msgid "no spm config file found" msgstr "" msgid "Running JV simulation\n" msgstr "" msgid "Stopping because of Vexternal" msgstr "" msgid "Efficiency" msgstr "" msgid "dj/dv" msgstr "" msgid "Voltage/Current across just the ideal diode" msgstr "" msgid "Applied Voltage" msgstr "" msgid "Recombination prefactor" msgstr "" msgid "Applied voltage" msgstr "" msgid "Excess carrier density" msgstr "" msgid "Excess charge density above equilibrium" msgstr "" msgid "Charge density with correction for surface charge" msgstr "" msgid "Total charge density" msgstr "" msgid "EQE" msgstr "" msgid "Light flux" msgstr "" msgid "Power in Optical emission/Electrical power in" msgstr "" msgid "Holes on left contact" msgstr "" msgid "Electrons on left contact" msgstr "" msgid "Holes on right contact" msgstr "" msgid "Electrons on right contact" msgstr "" msgid "Generating electrical mesh\n" msgstr "" msgid "I can't solve the matrix because I don't have enough equations." msgstr "" msgid "Wavelength" msgstr "" msgid "Probe load configuration" msgstr "" msgid "Probe calculate modes" msgstr "" msgid "Probe free memory" msgstr "" msgid "Photon generation rate" msgstr "" msgid "Average photon generation rate (xz-plane)" msgstr "" msgid "Photon generation rate (xz-plane)" msgstr "" msgid "Absorption" msgstr "" msgid "Extended opticla absorption" msgstr "" #, python-format msgid "Cleaning cache index: %s\n" msgstr "" msgid "Cache: checking cache free space\n" msgstr "" msgid "Freeing memory from the exciton model\n" msgstr "" msgid "Mode E-field" msgstr "" msgid "E-field" msgstr "" msgid "Refractive index" msgstr "" msgid "Normalized photon ensity" msgstr "" msgid "Photon density" msgstr "" msgid "Mode Ey" msgstr "" msgid "Ey" msgstr "" msgid "E - Electric field" msgstr "" msgid "" "Copyright (C) 2009-2022 Roderick C. I. MacKenzie, Released under the MIT " "License" msgstr "" msgid "options" msgstr "" msgid "Options" msgstr "" msgid "Simulation root path" msgstr "" msgid "Displays the current version" msgstr "" msgid "Dump known paths" msgstr "" msgid "Forces a simulation mode" msgstr "" msgid "Sets the number of CPUs" msgstr "" msgid "Runs the optimizer. Syntax: --optimizer scan_name" msgstr "" msgid "Launches the graphical user interface" msgstr "" msgid "Enables Reverse Polish Notation mode" msgstr "" msgid "Sets the language for localization" msgstr "" msgid "Outputs results in HTML format" msgstr "" msgid "Displays this help message" msgstr "" msgid "Runs the fitting algorithm" msgstr "" msgid "Runs the one-step fitting process" msgstr "" msgid "Reduces information sent to the gui" msgstr "" msgid "Benchmark the CPU" msgstr "" msgid "Tests random number generator" msgstr "" msgid "Tests color output" msgstr "" msgid "Defines a custom file path" msgstr "" msgid "Run a scan using the optimizer" msgstr "" msgid "" "Additional information about OghmaNano is available at https://www.Oghma-" "Nano.com." msgstr "" msgid "Report bugs to: roderick.mackenzie@oghma-nano.com" msgstr "" #, python-format msgid "oghma_core, Version %s\n" msgstr "" msgid "OghmaNano (Organic and hybrid Material Nano Simulation tool) core." msgstr "" msgid "Copyright Roderick MacKenzie, released under the MIT License 2009-2022" msgstr "" msgid "There is ABSOLUTELY NO WARRANTY; not even for MERCHANTABILITY or\n" msgstr "" msgid "FITNESS FOR A PARTICULAR PURPOSE.\n" msgstr "" msgid "Copyright Roderick MacKenzie, released under the MIT License 2010-2019" msgstr "" msgid "OghmaNano - Organic and hybrid Material Nano Simulation tool" msgstr "" msgid "Copyright (C) 2009-2022 Roderick C. I. MacKenzie,\n" msgstr "" msgid "Released under the MIT software license" msgstr "" msgid "If you wish to collaborate in anyway please get in touch:\n" msgstr "" msgid "dll not loaded" msgstr "" msgid "dll function outcoupling_dll_init not found\n" msgstr "" msgid "dll function outcoupling_dll_solve_lam_slice not found\n" msgstr "" msgid "dll function outcoupling_dll_ver not found\n" msgstr "" msgid "Photon Escape Probability Wavelength Averaged" msgstr "" msgid "Escape probability" msgstr "" msgid "Generation rate - position" msgstr "" msgid "Photons escape probability - position" msgstr "" msgid "Photons escape probability" msgstr "" msgid "Position - Photon density" msgstr "" msgid "Photon escape probability" msgstr "" msgid "Running FDTD simulation @" msgstr "" msgid "Ex - Electric field" msgstr "" msgid "Ey - Electric field" msgstr "" msgid "Ez - Electric field" msgstr "" msgid "Detectors" msgstr "" msgid "Hx - Magnetic field" msgstr "" msgid "H-field" msgstr "" msgid "Hy - Magnetic field" msgstr "" msgid "Hz - Magnetic field" msgstr "" msgid "Power den" msgstr "" msgid "Tot power den" msgstr "" msgid "epsilon_r - Premitivity" msgstr "" msgid "Permitivity" msgstr "" msgid "sigma - ?" msgstr "" msgid "sigma" msgstr "" msgid "Math_2d output" msgstr "" msgid "Values" msgstr "" msgid "dll function dll_matrix_solve not found\n" msgstr "" msgid "dll function dll_matrix_solver_free not found\n" msgstr "" msgid "dll function dll_matrix_init not found\n" msgstr "" msgid "Error closing dll" msgstr "" #, python-format msgid "File access log written to %s\n" msgstr "" msgid "Equilibrium Fermi-level" msgstr "" msgid "No threading" msgstr "" msgid "1" msgstr "" msgid "2" msgstr "" msgid "4" msgstr "" msgid "8" msgstr "" msgid "10" msgstr "" msgid "12" msgstr "" msgid "16" msgstr "" msgid "32" msgstr "" msgid "All CPUs div 2" msgstr "" msgid "All CPUs minus 2" msgstr "" msgid "All CPUs" msgstr "" #, python-brace-format msgid "Average mobility at V_{oc}" msgstr "" msgid "Recombination rate at Voc" msgstr "" #, python-brace-format msgid "Average mobility as J_{sc}" msgstr "" #, python-brace-format msgid "Harmonic avg. mobility at J_{sc}" msgstr "" #, python-brace-format msgid "Harmonic avg. mobility at P_{max}" msgstr "" #, python-brace-format msgid "Harmonic avg. mobility at V_{oc}" msgstr "" #, python-brace-format msgid "Electron mobility at J_{sc}" msgstr "" #, python-brace-format msgid "Hole mobility at J_{sc}" msgstr "" #, python-brace-format msgid "Electron mobility at P_{max}" msgstr "" #, python-brace-format msgid "Hole mobility at P_{max}" msgstr "" msgid "Recombination time constant at Voc" msgstr "" msgid "Trapped electrons at Voc" msgstr "" msgid "Trapped holes at Voc" msgstr "" msgid "Free electrons at Voc" msgstr "" msgid "Free holes at Voc" msgstr "" msgid "Total carriers (n+p)/2 at Voc" msgstr "" #, python-brace-format msgid "Average mobility at P_{max}" msgstr "" msgid "GPU" msgstr "" msgid "Max Cahce Size" msgstr "" msgid "Minimum disk free" msgstr "" msgid "Number of simulations to keep" msgstr "" msgid "Enable cache" msgstr "" msgid "Cache path" msgstr "" msgid "Name" msgstr "" msgid "Resistor" msgstr "" msgid "Seires resistance" msgstr "" msgid "Shunt resistance" msgstr "" msgid "Capacitor" msgstr "" msgid "Inductance" msgstr "" msgid "I0" msgstr "" msgid "Ideality factor" msgstr "" msgid "Layer" msgstr "" msgid "Count" msgstr "" msgid "Ideality factor (sigma)" msgstr "" msgid "I0 (sigma)" msgstr "" msgid "Seires resistance (sigma)" msgstr "" msgid "Shunt resistance (sigma)" msgstr "" msgid "Component" msgstr "" msgid "Diode" msgstr "" msgid "Wire" msgstr "" msgid "Source" msgstr "" msgid "Ground" msgstr "" msgid "Voltage source" msgstr "" msgid "Pointer" msgstr "" msgid "Power law" msgstr "" msgid "Barrier" msgstr "" msgid "Multi diode" msgstr "" msgid "Single point" msgstr "" msgid "Start intensity" msgstr "" msgid "Stop intensity" msgstr "" msgid "step multiplier" msgstr "" msgid "Transport resistance" msgstr "" #, python-brace-format msgid "Generate V_{oc}-J_{sc} curve" msgstr "" msgid "dx of Honeycomb" msgstr "" msgid "dy of Honeycomb" msgstr "" msgid "Line width" msgstr "" msgid "x shift" msgstr "" msgid "y shift" msgstr "" msgid "Rotate" msgstr "" msgid "Enable fit variable" msgstr "" msgid "Select" msgstr "" msgid "Shift experimental y" msgstr "" msgid "Invert simulated data (y)" msgstr "" msgid "Subtract lowest point" msgstr "" msgid "Set first point to zero" msgstr "" msgid "Fit df(x)/dx" msgstr "" msgid "Fit error multiplyer" msgstr "" msgid "Fit define convergence" msgstr "" msgid "Simplex down-hill" msgstr "" msgid "Initial simplex step" msgstr "" msgid "Reset simplex size periodicaly" msgstr "" msgid "Steps between reset" msgstr "" msgid "Disable reset below error" msgstr "" msgid "Randomize fit on stall" msgstr "" msgid "Stall steps" msgstr "" msgid "Newton Clamp" msgstr "" msgid "Newton steps" msgstr "" msgid "Enable random reset" msgstr "" msgid "Sigma" msgstr "" msgid "Dump every n steps" msgstr "" msgid "Cooling constant" msgstr "" msgid "Annealing steps" msgstr "" msgid "Randomize variables at begining" msgstr "" msgid "Number of steps" msgstr "" msgid "Leapfrog steps" msgstr "" msgid "Fit control" msgstr "" msgid "Set error to zero before" msgstr "" msgid "Enable snapshots during fit" msgstr "" msgid "Normalize data at x point" msgstr "" msgid "Run forever" msgstr "" msgid "Random funciton" msgstr "" msgid "Mersenne Twister" msgstr "" msgid "C rand" msgstr "" msgid "Random initialization" msgstr "" msgid "Wall clock" msgstr "" msgid "Constant value" msgstr "" msgid "/dev/urandom" msgstr "" msgid "Random seed value" msgstr "" msgid "Add noise" msgstr "" msgid "Noise level" msgstr "" msgid "a" msgstr "" msgid "b" msgstr "" msgid "c" msgstr "" msgid "Range start x0" msgstr "" msgid "Range stop x1" msgstr "" msgid "JV voltage step multiplyer" msgstr "" msgid "Maximum current density" msgstr "" msgid "JV curve photon generation efficiency" msgstr "" #, python-brace-format msgid "Average carrier density at P_{max}" msgstr "" msgid "Start voltage" msgstr "" msgid "Stop voltage" msgstr "" msgid "Voltage step" msgstr "" msgid "Points" msgstr "" msgid "Dump SCLC data" msgstr "" msgid "Use experimental emission spectra" msgstr "" #, python-brace-format msgid "n_{free} to p_{free} photon generation efficiency" msgstr "" #, python-brace-format msgid "n_{free} to n_{trap} photon generation efficiency" msgstr "" #, python-brace-format msgid "n_{trap} to p_{free} photon generation efficiency" msgstr "" #, python-brace-format msgid "p_{trap} to n_{free} photon generation efficiency" msgstr "" #, python-brace-format msgid "p_{free} to p_{trap} photon generation efficiency" msgstr "" msgid "Free-to-free emission" msgstr "" msgid "Free-to-trap emission" msgstr "" msgid "Experimental emission efficiency" msgstr "" msgid "Website" msgstr "" msgid "Author" msgstr "" msgid "Journal" msgstr "" msgid "Title" msgstr "" msgid "Volume" msgstr "" msgid "Pages" msgstr "" msgid "Year" msgstr "" msgid "DOI" msgstr "" msgid "Book title" msgstr "" msgid "Publisher" msgstr "" msgid "ISBN" msgstr "" msgid "Scraped text" msgstr "" #, python-brace-format msgid "V_{oc}" msgstr "" #, python-brace-format msgid "V_{bi}" msgstr "" msgid "Power conversion efficiency (PCE)" msgstr "" msgid "Fill factor" msgstr "" msgid "Max power" msgstr "" msgid "Voltage at max power" msgstr "" msgid "Current density at max power" msgstr "" msgid "Current density at Voc" msgstr "" #, python-brace-format msgid "J_{sc}" msgstr "" msgid "dr" msgstr "" msgid "dx" msgstr "" msgid "dy" msgstr "" msgid "offset" msgstr "" msgid "x rotation" msgstr "" msgid "y rotation" msgstr "" msgid "z rotation" msgstr "" msgid "x pos" msgstr "" msgid "y pos" msgstr "" msgid "zoom" msgstr "" msgid "Output verbosity to disk" msgstr "" msgid "Nothing" msgstr "" msgid "Key results" msgstr "" msgid "Write everything to disk" msgstr "" msgid "Write everything to disk every 2nd step" msgstr "" msgid "Write everything to disk every 5th step" msgstr "" msgid "Write everything to disk every 10th step" msgstr "" msgid "Output verbosity to screen" msgstr "" msgid "Show lots" msgstr "" msgid "Show key results" msgstr "" msgid "Solver output verbosity" msgstr "" msgid "As answers are found" msgstr "" msgid "Each step" msgstr "" msgid "OpenCL GPU acceleration" msgstr "" msgid "GPU name" msgstr "" msgid "Excitation type" msgstr "" msgid "FDTD Slice" msgstr "" msgid "Sin" msgstr "" msgid "Pulse" msgstr "" msgid "Pulse length" msgstr "" msgid "Excite Ex" msgstr "" msgid "Excite Ey" msgstr "" msgid "Excite Ez" msgstr "" msgid "Use gnuplot to visualize" msgstr "" msgid "Simulation time" msgstr "" msgid "Stop time" msgstr "" msgid "Max steps" msgstr "" msgid "Automatic world size" msgstr "" msgid "World fills mesh" msgstr "" msgid "x0" msgstr "" msgid "x1" msgstr "" msgid "y0" msgstr "" msgid "y1" msgstr "" msgid "z0" msgstr "" msgid "z1" msgstr "" msgid "margin x0" msgstr "" msgid "margin x1" msgstr "" msgid "margin y0" msgstr "" msgid "margin y1" msgstr "" msgid "margin z0" msgstr "" msgid "margin z1" msgstr "" msgid "Start light intensity" msgstr "" msgid "Stop light intensity" msgstr "" msgid "Numer of steps" msgstr "" msgid "CE light on time" msgstr "" msgid "CE light off time" msgstr "" msgid "srh electron rate 1" msgstr "" msgid "srh electron rate 2" msgstr "" msgid "srh electron rate 3" msgstr "" msgid "srh electron rate 4" msgstr "" msgid "srh hole rate 1" msgstr "" msgid "srh hole rate 2" msgstr "" msgid "srh hole rate 3" msgstr "" msgid "srh hole rate 4" msgstr "" #, python-brace-format msgid "V_{external}" msgstr "" msgid "Load resistor" msgstr "" msgid "fx domain mesh points" msgstr "" msgid "Cycles to simulate" msgstr "" msgid "Voltage modulation depth" msgstr "" msgid "Excite with" msgstr "" msgid "Light" msgstr "" msgid "Measure" msgstr "" msgid "Light modulation depth" msgstr "" msgid "Run fit after simulation" msgstr "" msgid "Periods to fit" msgstr "" msgid "Normalize transfer functon by light intensity" msgstr "" msgid "Re(J)" msgstr "" msgid "Im(J)" msgstr "" msgid "fx" msgstr "" msgid "di" msgstr "" msgid "dmodulation" msgstr "" msgid "dphase" msgstr "" msgid "Simulation type" msgstr "" msgid "Large signal" msgstr "" msgid "Fourier" msgstr "" msgid "Sigma of gaussian" msgstr "" msgid "Gaussian offset x" msgstr "" msgid "Gaussian offset y" msgstr "" msgid "Invert" msgstr "" msgid "x-triangles" msgstr "" msgid "y-triangles" msgstr "" msgid "Method" msgstr "" msgid "Node reduce" msgstr "" msgid "No reduce" msgstr "" msgid "Min allowable angle" msgstr "" msgid "pixels" msgstr "" msgid "Percent of histogram to ignore" msgstr "" msgid "Enable shape0" msgstr "" msgid "Shape type" msgstr "" msgid "Enable shape1" msgstr "" msgid "Threshold value" msgstr "" msgid "Lens size" msgstr "" msgid "Lens type" msgstr "" msgid "Convex" msgstr "" msgid "Concave" msgstr "" msgid "Offset" msgstr "" msgid "length" msgstr "" msgid "Waveform" msgstr "" msgid "Square" msgstr "" msgid "Saw wave" msgstr "" msgid "Color" msgstr "" msgid "Optical filter material" msgstr "" msgid "dB" msgstr "" msgid "Local ground view factor" msgstr "" msgid "n" msgstr "" msgid "Z points" msgstr "" msgid "X points" msgstr "" msgid "Y points" msgstr "" msgid "Morphology type" msgstr "" msgid "Blobs" msgstr "" msgid "Cluster" msgstr "" msgid "Test box" msgstr "" msgid "Illuminate from" msgstr "" msgid "Top (y0)" msgstr "" msgid "Bottom (y1)" msgstr "" msgid "Left (x0)" msgstr "" msgid "Right (x1)" msgstr "" msgid "Front (z0)" msgstr "" msgid "Back (z1)" msgstr "" msgid "xyz" msgstr "" msgid "Enable vector" msgstr "" msgid "Edit patch" msgstr "" msgid "Edit vectors" msgstr "" msgid "Number of archives" msgstr "" msgid "Simulations per archive" msgstr "" msgid "Random distribution" msgstr "" msgid "Log" msgstr "" msgid "Linear" msgstr "" msgid "Archive path" msgstr "" msgid "Vector file name" msgstr "" msgid "Crash time" msgstr "" msgid "Build vectors when done" msgstr "" msgid "ML Output Vector" msgstr "" msgid "ML Input Vector" msgstr "" msgid "Experimental file" msgstr "" #, python-brace-format msgid "Boundary condition for y_{min}" msgstr "" msgid "Dirichlet" msgstr "" msgid "Neumann (==0)" msgstr "" msgid "Heatsink" msgstr "" #, python-brace-format msgid "Boundary condition for y_{max}" msgstr "" #, python-brace-format msgid "Boundary condition for x_{min}" msgstr "" #, python-brace-format msgid "Boundary condition for x_{max}" msgstr "" #, python-brace-format msgid "Boundary condition for z_{min}" msgstr "" #, python-brace-format msgid "Boundary condition for z_{max}" msgstr "" msgid "Object shape" msgstr "" msgid "Rotate around y-axis" msgstr "" msgid "y-axis" msgstr "" msgid "x-axis" msgstr "" msgid "Rotate around x-axis" msgstr "" msgid "dx of the object" msgstr "" msgid "dy of the object" msgstr "" msgid "dz of the object" msgstr "" msgid "dx padding" msgstr "" msgid "padding" msgstr "" msgid "dy padding" msgstr "" msgid "dz padding" msgstr "" msgid "Number of objects x" msgstr "" msgid "Number of objects" msgstr "" msgid "Number of objects y" msgstr "" msgid "Number of objects z" msgstr "" msgid "Object" msgstr "" msgid "Attributes" msgstr "" msgid "x offset" msgstr "" msgid "y offset" msgstr "" msgid "z offset" msgstr "" msgid "Web page link" msgstr "" msgid "Text label" msgstr "" msgid "Texture" msgstr "" msgid "Electrical parameters" msgstr "" msgid "BHJ type" msgstr "" msgid "Optical" msgstr "" msgid "Optical material" msgstr "" msgid "Hidden" msgstr "" msgid "Electrical" msgstr "" msgid "Excitons" msgstr "" msgid "Scattering length" msgstr "" msgid "Life time" msgstr "" #, python-brace-format msgid "k_{pl}" msgstr "" #, python-brace-format msgid "k_{fret}" msgstr "" #, python-brace-format msgid "k_{alpha}" msgstr "" #, python-brace-format msgid "k_{dis}" msgstr "" msgid "Max itterations" msgstr "" msgid "Convergence error" msgstr "" msgid "Interface splitting" msgstr "" msgid "Only split at interface" msgstr "" msgid "Interface depth" msgstr "" msgid "Excited states" msgstr "" msgid "Forster transfer rate" msgstr "" msgid "Host singlet-exciton decay rate" msgstr "" msgid "Host inter-system crossing rate" msgstr "" msgid "Host singlet-singlet annihilation (SSA) rate" msgstr "" msgid "Host singlet-polaron annihilation (SPA) rate" msgstr "" msgid "Host singlet-triplet annihilation (STA) rate" msgstr "" msgid "Dexter transfer rate" msgstr "" msgid "Host triplet decay rate" msgstr "" msgid "Host triplet-polaron annihilation (TPA) rate" msgstr "" msgid "Host triplet-triplet annihilation (TTA) rate" msgstr "" msgid "Dopant singlet-exciton decay rate" msgstr "" msgid "Dopant inter-system crossing rate" msgstr "" msgid "Dopant singlet-polaron annihilation (SPA) rate" msgstr "" msgid "Dopant singlet-triplet annihilation (STA) rate" msgstr "" msgid "Dopant singlet-singlet annihilation (SSA) rate" msgstr "" msgid "Dopant triplet decay rate" msgstr "" msgid "Dopant triplet-triplet annihilation (TTA) rate" msgstr "" msgid "Dopant triplet-polaron annihilation (TPA) rate" msgstr "" msgid "Confinement factor" msgstr "" msgid "Dopant concentration" msgstr "" msgid "Spectral overlap" msgstr "" msgid "Run control" msgstr "" msgid "Solver control" msgstr "" msgid "Output" msgstr "" msgid "Dump absorption profile" msgstr "" msgid "Run the ray tracer" msgstr "" msgid "When called" msgstr "" msgid "Once per simulation" msgstr "" msgid "Each simulation step" msgstr "" msgid "Every nth simulation step" msgstr "" msgid "Each n steps" msgstr "" msgid "Theta steps" msgstr "" msgid "Theta start" msgstr "" msgid "Theta stop" msgstr "" msgid "Phi steps" msgstr "" msgid "Phi start" msgstr "" msgid "Phi stop" msgstr "" msgid "Escape bins" msgstr "" msgid "Emit from" msgstr "" msgid "Center of each layer" msgstr "" msgid "Each electrical mesh point" msgstr "" msgid "Center of y slice" msgstr "" msgid "Super sample x" msgstr "" msgid "Super sample x points" msgstr "" msgid "Ray tracing" msgstr "" msgid "Minimum ray intensity" msgstr "" msgid "Maximum number of bounces" msgstr "" msgid "Simulate transmitted rays" msgstr "" msgid "Simulate reflected rays" msgstr "" msgid "Poisson equation boundary" msgstr "" msgid "Interpolate" msgstr "" #, python-brace-format msgid "J_{e} equation boundary" msgstr "" #, python-brace-format msgid "J_{h} equation boundary" msgstr "" msgid "Couple to electrical solver" msgstr "" msgid "Scan section" msgstr "" msgid "Whole device" msgstr "" msgid "Box section" msgstr "" msgid "x-Scan" msgstr "" msgid "x-start" msgstr "" msgid "z-start" msgstr "" msgid "x-stop" msgstr "" msgid "z-stop" msgstr "" msgid "Excited states for OPV" msgstr "" #, python-brace-format msgid "Decay of singlets to 1C (k_{ds})" msgstr "" #, python-brace-format msgid "Inter system crossing (k_{isc})" msgstr "" #, python-brace-format msgid "Reverse inter system crossing (k_{risc})" msgstr "" #, python-brace-format msgid "Triplet-triplet annihilation (k_{tta})" msgstr "" #, python-brace-format msgid "Singlet-triplet annihilation (k_{sta})" msgstr "" #, python-brace-format msgid "Singlet-singlet annihilation (k_{ssa})" msgstr "" msgid "Alpha fraction (alpha)" msgstr "" #, python-brace-format msgid "Singlet to ground state (k_{fs})" msgstr "" #, python-brace-format msgid "Decay of triplets (k_{dt})" msgstr "" #, python-brace-format msgid "Triplet to ground state (k_{ft})" msgstr "" #, python-brace-format msgid "Decay of 3C to np (k_{dct})" msgstr "" msgid "Inter system crossing CT (k_{isc ct})" msgstr "" msgid "Reverse inter system crossing CT (k_{risc ct})" msgstr "" #, python-brace-format msgid "3C and 1C to ground state (k_{f})" msgstr "" msgid "" "Use external \n" "voltage as stop" msgstr "" msgid "Dump trap distribution" msgstr "" msgid "False" msgstr "" msgid "Energy space map" msgstr "" msgid "Single mesh point" msgstr "" msgid "Charge carrier generation" msgstr "" msgid "Charge carrier generation model" msgstr "" msgid "Transfer Matrix" msgstr "" msgid "Ray trace" msgstr "" msgid "Smooth the EQE spectra" msgstr "" msgid "FDTD" msgstr "" msgid "Fist iteration" msgstr "" msgid "Max Electrical iterations (first step)" msgstr "" msgid "Electrical clamp (first step)" msgstr "" msgid "Desired solver error (first step)" msgstr "" msgid "Ramp temperature" msgstr "" msgid "Later iterations" msgstr "" msgid "Max electrical iterations" msgstr "" msgid "Electrical clamp" msgstr "" msgid "Desired solver error" msgstr "" msgid "Exit strategy" msgstr "" msgid "Newton solver clever exit" msgstr "" msgid "Newton minimum iterations" msgstr "" msgid "Quit on convergence problem" msgstr "" msgid "Quit on inverted Fermi-level" msgstr "" msgid "Solver type" msgstr "" msgid "Newton solver to use" msgstr "" msgid "none" msgstr "" msgid "newton" msgstr "" msgid "newton_2d" msgstr "" msgid "poisson_2d" msgstr "" msgid "Solver normalization" msgstr "" msgid "Block normalization" msgstr "" msgid "Automatic normalization variables" msgstr "" msgid "Phi normalization" msgstr "" msgid "Je normalization" msgstr "" msgid "Jh normalization" msgstr "" msgid "SRH e normalization" msgstr "" msgid "SRH h normalization" msgstr "" msgid "Solver threshold" msgstr "" msgid "Enable thresholding" msgstr "" msgid "Matrix threshold" msgstr "" msgid "Dump error" msgstr "" msgid "Calculate current at" msgstr "" msgid "Contacts" msgstr "" msgid "Mid point" msgstr "" msgid "Average" msgstr "" msgid "Solve Kirchhoff's current law in Newton solver" msgstr "" msgid "Real sparse matrix solver" msgstr "" msgid "Matrix solver" msgstr "" msgid "UMFPACK" msgstr "" msgid "external_solver" msgstr "" msgid "csparse" msgstr "" msgid "superlu" msgstr "" msgid "nr_d" msgstr "" msgid "nr_ld" msgstr "" msgid "Dump every matrix" msgstr "" msgid "Complex sparse matrix solver" msgstr "" msgid "Complex UMFPACK" msgstr "" msgid "Interface model" msgstr "" msgid "None" msgstr "" msgid "Free-to-Free" msgstr "" msgid "Free-to-trap (SRH)" msgstr "" msgid "Recombination constant" msgstr "" msgid "Direct tunneling" msgstr "" msgid "Direct tunneling (electron)" msgstr "" msgid "A" msgstr "" msgid "B" msgstr "" msgid "Direct tunneling (hole)" msgstr "" msgid "Fowler–Nordheim tunneling (electron)" msgstr "" msgid "Fowler–Nordheim tunneling (hole)" msgstr "" msgid "Thermiomic emission (electron)" msgstr "" msgid "Thermiomic emission (hole)" msgstr "" msgid "Hopping conduction (electron)" msgstr "" msgid "Hopping conduction (hole)" msgstr "" msgid "Organic tunneling" msgstr "" msgid "Electron tunneling (organic)" msgstr "" msgid "T" msgstr "" msgid "Hole tunneling (organic)" msgstr "" msgid "Doping" msgstr "" msgid "Interface doping LHS" msgstr "" msgid "Doping LHS" msgstr "" msgid "Interface doping RHS" msgstr "" msgid "Doping RHS" msgstr "" msgid "Left hole density" msgstr "" msgid "Left electron density" msgstr "" msgid "Right hole density" msgstr "" msgid "Right electron density" msgstr "" msgid "Built in potential" msgstr "" msgid "Electron affinity left" msgstr "" msgid "Electron affinity right" msgstr "" msgid "EQE Voltage" msgstr "" msgid "Optical power" msgstr "" msgid "Single optical power" msgstr "" msgid "Optical power start" msgstr "" msgid "Optical power stop" msgstr "" msgid "Use electrical DoS at low energy" msgstr "" msgid "Dump slices" msgstr "" msgid "Save probes to disk" msgstr "" msgid "Write out band structure" msgstr "" msgid "Write newton solver convergence to disk" msgstr "" msgid "Print poisson solver convergence" msgstr "" msgid "Normalize output x-time to one" msgstr "" msgid "Dump the built in voltage." msgstr "" msgid "Dump optical probe spectrum" msgstr "" msgid "Write file access log to disk." msgstr "" msgid "Write headers to output files" msgstr "" msgid "Write first guess to equations" msgstr "" msgid "Log verbocity" msgstr "" msgid "Screen" msgstr "" msgid "Disk" msgstr "" msgid "Screen and disk" msgstr "" msgid "PL dump Energy" msgstr "" msgid "Clean up DoS cache files" msgstr "" msgid "Write binary data where possible" msgstr "" msgid "Save parameter sweeps" msgstr "" msgid "Off" msgstr "" msgid "Memory" msgstr "" msgid "CPU" msgstr "" msgid "Number of threads used by the backend" msgstr "" msgid "Maximum number of core instances" msgstr "" msgid "Stall time" msgstr "" msgid "Max fit run time" msgstr "" msgid "Min cpus" msgstr "" msgid "Steel CPUs" msgstr "" msgid "Cluster port" msgstr "" msgid "Path to source code" msgstr "" msgid "Path to compiled libs for cluster" msgstr "" msgid "Make command" msgstr "" msgid "exe name" msgstr "" msgid "Store DoS on disk" msgstr "" msgid "Step" msgstr "" msgid "File containing generation rate" msgstr "" msgid "Photon efficiency" msgstr "" msgid "QE spectra file" msgstr "" msgid "Incoherent wavelengths" msgstr "" msgid "Mesh layers must equal device layers" msgstr "" msgid "Light spectrum" msgstr "" msgid "Light multiplyer" msgstr "" msgid "Log fit" msgstr "" msgid "Opperation" msgstr "" msgid "json_src" msgstr "" msgid "json_dest" msgstr "" msgid "Multiplier" msgstr "" msgid "Initialization vector" msgstr "" msgid "Cryptographic key" msgstr "" msgid "Contact charge density" msgstr "" msgid "Contact position" msgstr "" msgid "Charge type" msgstr "" msgid "Electron" msgstr "" msgid "Hole" msgstr "" msgid "Physical model" msgstr "" msgid "Photo current density" msgstr "" msgid "Photo current" msgstr "" msgid "Laser wavelength" msgstr "" msgid "Length of pulse" msgstr "" msgid "Spot size x" msgstr "" msgid "Spot size y" msgstr "" msgid "Energy in pulse" msgstr "" msgid "Efficiency of photons" msgstr "" msgid "Solve optical problem" msgstr "" msgid "Yes - n/k" msgstr "" msgid "Yes - k" msgstr "" msgid "No" msgstr "" msgid "Solve thermal problem" msgstr "" msgid "Yes" msgstr "" msgid "Object type" msgstr "" msgid "Contact" msgstr "" msgid "Active" msgstr "" msgid "BHJ" msgstr "" msgid "Other" msgstr "" msgid "Enabled" msgstr "" msgid "Optical thickness" msgstr "" msgid "Free carrier statistics" msgstr "" msgid "Maxwell Boltzmann - analytic" msgstr "" msgid "Maxwell Boltzmann - numerical+analytic" msgstr "" msgid "Maxwell Boltzmann - full numerical" msgstr "" msgid "Ferm-Dirac - numerical" msgstr "" msgid "Free carriers" msgstr "" msgid "Effective density of free electron states (@300K)" msgstr "" msgid "Effective density of free hole states (@300K)" msgstr "" msgid "True" msgstr "" msgid "Electron activation (Δ)" msgstr "" msgid "Hole activation (Δ)" msgstr "" msgid "Enable T dependent free carrier mob" msgstr "" msgid "Enable λ power in free to free recombination" msgstr "" msgid "Show excited singlet states" msgstr "" msgid "Equilibrium SRH traps" msgstr "" #, python-brace-format msgid "n_{1}" msgstr "" #, python-brace-format msgid "p_{1}" msgstr "" #, python-brace-format msgid "tau_{n}" msgstr "" #, python-brace-format msgid "tau_{p}" msgstr "" msgid "Non-equilibrium SRH traps" msgstr "" msgid "Number of traps" msgstr "" msgid "DoS distribution" msgstr "" msgid "complex" msgstr "" msgid "exponential" msgstr "" msgid "Electron trap density" msgstr "" msgid "Hole trap density" msgstr "" msgid "Electron tail slope" msgstr "" msgid "Hole tail slope" msgstr "" msgid "Free electron to Trapped electron" msgstr "" msgid "Free hole to Trapped electron" msgstr "" msgid "Free electron to Trapped hole" msgstr "" msgid "Free hole to Trapped hole" msgstr "" msgid "Function" msgstr "" msgid "Enable/Disable" msgstr "" msgid "ABC" msgstr "" msgid "Periodic" msgstr "" #, python-brace-format msgid "Exciton density at y_{min}" msgstr "" #, python-brace-format msgid "Conductivity of heat sink y_{min}" msgstr "" #, python-brace-format msgid "Heat sink length y_{min}" msgstr "" #, python-brace-format msgid "Exciton density at y_{max}" msgstr "" #, python-brace-format msgid "Conductivity of heat sink y_{max}" msgstr "" #, python-brace-format msgid "Heat sink length y_{max}" msgstr "" #, python-brace-format msgid "Exciton density at x_{min}" msgstr "" #, python-brace-format msgid "Conductivity of heat sink x_{min}" msgstr "" #, python-brace-format msgid "Heat sink length x_{min}" msgstr "" #, python-brace-format msgid "Exciton density at x_{max}" msgstr "" #, python-brace-format msgid "Conductivity of heat sink x_{max}" msgstr "" #, python-brace-format msgid "Heat sink length x_{max}" msgstr "" #, python-brace-format msgid "Device temperature at z_{min}" msgstr "" #, python-brace-format msgid "Conductivity of heat sink z_{min}" msgstr "" #, python-brace-format msgid "Heat sink length z_{min}" msgstr "" #, python-brace-format msgid "Exciton density at z_{max}" msgstr "" #, python-brace-format msgid "Conductivity of heat sink z_{max}" msgstr "" #, python-brace-format msgid "Heat sink length z_{max}" msgstr "" msgid "Auger recombination" msgstr "" #, python-brace-format msgid "Auger C_{n}" msgstr "" #, python-brace-format msgid "Auger C_{p}" msgstr "" msgid "Start temperature" msgstr "" msgid "Stop temperature" msgstr "" msgid "Temperature steps" msgstr "" msgid "Perovskite ion density" msgstr "" msgid "Doping density (x=0)" msgstr "" msgid "Doping density (x=max)" msgstr "" #, python-brace-format msgid "n_{free} to p_{free} Recombination rate constant" msgstr "" #, python-brace-format msgid "n_{free} to p_{free} λ" msgstr "" msgid "Electrostatics" msgstr "" msgid "Eg" msgstr "" msgid "Xi" msgstr "" #, python-brace-format msgid "k_{RISC} Reverse Inter-System crossing rate" msgstr "" #, python-brace-format msgid "σ_{em} Stimulated Emission cross section" msgstr "" #, python-brace-format msgid "σ_{t1tn} Triplet Absorption cross section" msgstr "" msgid "σ_{n,p} Polaron Absorption cross section" msgstr "" msgid "e-h separation distance" msgstr "" msgid "Photon rate equation" msgstr "" msgid "Spontaneous emission factor" msgstr "" msgid "Cavity photon decay rate" msgstr "" msgid "Density of guest molecules" msgstr "" msgid "ξ Stimulated emission gain coefficient" msgstr "" msgid "Blended material" msgstr "" #, python-brace-format msgid "Eg_{0}" msgstr "" #, python-brace-format msgid "Xi_{0}" msgstr "" #, python-brace-format msgid "Eg_{1}" msgstr "" #, python-brace-format msgid "Xi_{1}" msgstr "" msgid "Thermal conductivity" msgstr "" msgid "Electron relaxation time" msgstr "" msgid "Hole relaxation time" msgstr "" msgid "Density" msgstr "" msgid "Cost per Kg" msgstr "" msgid "Energy per Kg" msgstr "" msgid "Link" msgstr "" msgid "Shunt resistivity" msgstr "" msgid "Series resistivity" msgstr "" msgid "Series resistivity z" msgstr "" msgid "Series resistivity x" msgstr "" msgid "Series resistivity y" msgstr "" msgid "Layer ideality factor" msgstr "" msgid "Reverse bias current" msgstr "" msgid "" "Enable optical charge\n" " carrier generation" msgstr "" msgid "Dump only at end" msgstr "" msgid "startime" msgstr "" msgid "ea_factor" msgstr "" msgid "Np" msgstr "" msgid "den" msgstr "" msgid "externalv" msgstr "" msgid "dt_neg_time" msgstr "" msgid "dt" msgstr "" msgid "dt_mull" msgstr "" msgid "stop" msgstr "" msgid "stark" msgstr "" msgid "lasereff" msgstr "" msgid "sim_contacts" msgstr "" msgid "Shift of TPC signal" msgstr "" #, python-brace-format msgid "R_{short}" msgstr "" #, python-brace-format msgid "V_{bias}" msgstr "" msgid "Efficiency of light" msgstr "" msgid "subtract DC" msgstr "" msgid "External load resistor" msgstr "" msgid "Material type" msgstr "" msgid "Organic" msgstr "" msgid "Oxide" msgstr "" msgid "Inorganic" msgstr "" msgid "Metal" msgstr "" msgid "Transparency" msgstr "" msgid "Privicy options" msgstr "" msgid "Public - everyone" msgstr "" msgid "Public - within org" msgstr "" msgid "Private - never publish" msgstr "" msgid "Change log" msgstr "" #, python-brace-format msgid "Theta_{SRH} - free P_{max}" msgstr "" #, python-brace-format msgid "Theta_{SRH} - free-trap P_{max}" msgstr "" msgid "Recombination time constant" msgstr "" msgid "Device capacitance" msgstr "" msgid "Photos absorbed in active layer" msgstr "" msgid "Peak height Rp" msgstr "" msgid "RMS height Rq" msgstr "" msgid "Average height Ra" msgstr "" msgid "dV step" msgstr "" msgid "User name" msgstr "" msgid "Cluster IP" msgstr "" msgid "Cluster master IP" msgstr "" msgid "Remote cluster directory" msgstr "" msgid "Remote node list" msgstr "" msgid "IV" msgstr "" msgid "Key" msgstr "" msgid "Circuit diagram mode" msgstr "" msgid "Hand drawn" msgstr "" msgid "From layer structure" msgstr "" msgid "From electrical mesh" msgstr "" msgid "Poisson solver max iterations" msgstr "" msgid "Poisson clamping" msgstr "" msgid "Enable poisson solver" msgstr "" msgid "Simulation file to fit against" msgstr "" msgid "Shift experimental x" msgstr "" msgid "Fit x start" msgstr "" msgid "Fit x stop" msgstr "" msgid "log x" msgstr "" msgid "log y" msgstr "" msgid "Keep sign for log y " msgstr "" msgid "Point to normalize" msgstr "" msgid "Fit against simulation" msgstr "" msgid "File or token banned" msgstr "" msgid "Noise enabled" msgstr "" msgid "Noise file name" msgstr "" msgid "Noise sigma" msgstr "" msgid "Max iterations " msgstr "" msgid "Stop error" msgstr "" msgid "Number of x eigenmodes" msgstr "" msgid "Number of y eigenmodes" msgstr "" msgid "TE/TM" msgstr "" msgid "Transverse Electric (TE)" msgstr "" msgid "Transverse Magnetic (TM)" msgstr "" msgid "Find only fundamental" msgstr "" msgid "Thermal model type" msgstr "" msgid "Hydrodynamic" msgstr "" msgid "Lattice heat" msgstr "" #, python-brace-format msgid "Device temperature at y_{min}" msgstr "" #, python-brace-format msgid "Device temperature at y_{max}" msgstr "" #, python-brace-format msgid "Device temperature at x_{min}" msgstr "" #, python-brace-format msgid "Device temperature at x_{max}" msgstr "" #, python-brace-format msgid "Device temperature at z_{max}" msgstr "" msgid "Lattice heat model" msgstr "" msgid "Electron heat model" msgstr "" msgid "Hole heat model" msgstr "" msgid "Max thermal solver iterations" msgstr "" msgid "Desired thermal error" msgstr "" msgid "Force use of thermal mesh" msgstr "" msgid "Minimum device temperature" msgstr "" msgid "Maximum device temperature" msgstr "" msgid "Thermal mesh points" msgstr "" msgid "Probe enabled" msgstr "" msgid "Probe type" msgstr "" msgid "Device state" msgstr "" msgid "Voc" msgstr "" msgid "Jsc" msgstr "" msgid "Mesh points x" msgstr "" msgid "Mesh points z" msgstr "" msgid "Detector" msgstr "" msgid "LED extraction efficiency" msgstr "" msgid "Series resistance" msgstr "" msgid "Other layers" msgstr "" msgid "Automatic remesh x" msgstr "" msgid "Automatic remesh y" msgstr "" msgid "Automatic remesh z" msgstr "" msgid "Left/Right" msgstr "" msgid "Left" msgstr "" msgid "Right" msgstr "" msgid "Mesh dy" msgstr "" msgid "Experimental emission spectra" msgstr "" msgid "Node list" msgstr "" msgid "simplex mull" msgstr "" msgid "Reset steps" msgstr "" msgid "Intensity of the sun" msgstr "" msgid "Absorption of material" msgstr "" msgid "Simulation mode" msgstr "" msgid "start voltage" msgstr "" msgid "Max voltage" msgstr "" msgid "Invert output" msgstr "" msgid "Use capacitor" msgstr "" msgid "0" msgstr "" msgid "External C" msgstr "" msgid "External R" msgstr "" msgid "Resistance of scope" msgstr "" msgid "device width" msgstr "" msgid "device breadth" msgstr "" msgid "Ratio of conduction current to recombination current" msgstr "" msgid "Times to repeat" msgstr "" msgid "Reset time to zero each cycle" msgstr "" msgid "Edit" msgstr "" msgid "Sanpshot plot type" msgstr "" msgid "Wireframe" msgstr "" msgid "Heat map" msgstr "" msgid "Contour map" msgstr "" msgid "Sanpshot file" msgstr "" msgid "dll function dll_complex_matrix_solver_free not found\n" msgstr "" msgid "File not found\n" msgstr "" msgid "Deleting directory: " msgstr "" msgid "Deleting directory" msgstr "" msgid "Solver initialization\n" msgstr "" msgid "dll_solve_cur not NULL\n" msgstr "" msgid "dll function dll_solve_cur not found\n" msgstr "" msgid "dll_solver_realloc not NULL\n" msgstr "" msgid "dll function dll_solver_realloc not found\n" msgstr "" msgid "dll_solver_free_memory not NULL\n" msgstr "" msgid "dll function dll_solver_free_memory not found\n" msgstr "" msgid ">I don't understand the command" msgstr "" msgid "Can not open file" msgstr "" msgid "Detector input hist" msgstr "" msgid "Counts" msgstr "" msgid "Detected light" msgstr "" msgid "Efficiency of emission" msgstr "" msgid "Detector" msgstr "" msgid "Power" msgstr "" msgid "Solving the initial electrostatic field." msgstr "" msgid "Electrostatic solver f()=" msgstr "" msgid "Converged" msgstr "" msgid "Finding equilibrium conditions" msgstr "" msgid "Finished finding equilibrium conditions" msgstr "" msgid "Finished generating DoS....\n" msgstr "" msgid "load: config files" msgstr "" msgid "Intrinsic Fermi - position" msgstr "" msgid "LUMO energy - position" msgstr "" msgid "HOMO energy - position" msgstr "" msgid "Electron density - position" msgstr "" msgid "Hole density - position" msgstr "" msgid "Potential - position" msgstr "" msgid "Loading electrical dll\n" msgstr "" msgid "dll function dll_run_simulation not found\n" msgstr "" msgid "Electrical objects" msgstr "" msgid "Running simulation" msgstr "" msgid "Solved" msgstr "" msgid "Equations" msgstr "" msgid "I can't allocate a device with less than 1 mesh point." msgstr "" msgid "" "You are asking me to simulate a device with more than 50000 mesh points, " "although I could do this I am not going to because it seems a bad idea to me." msgstr "" msgid "file name not set\n" msgstr "" msgid "Radiative recombination" msgstr "" msgid "Photon flux escaping the device" msgstr "" msgid "Photon flux" msgstr "" msgid "Single states" msgstr "" msgid "time" msgstr "" msgid "Ns" msgstr "" msgid "Triplet states" msgstr "" msgid "Nt" msgstr "" msgid "Singlets in donor" msgstr "" msgid "Nsd" msgstr "" msgid "Triplet in donor" msgstr "" msgid "Ntd" msgstr "" msgid "Photon denisty" msgstr "" msgid "Npho" msgstr "" msgid "Recombination" msgstr "" msgid "Surface recombination on left contact" msgstr "" msgid "Surface recombination on right contact" msgstr "" msgid "Trapped electron density" msgstr "" msgid "Trapped hole density" msgstr "" msgid "Free electron density" msgstr "" msgid "Free hole density" msgstr "" msgid "Proportion of trapped charge carriers" msgstr "" msgid "Theta" msgstr "" msgid "Average electron and hole mobility" msgstr "" msgid "Average (geometric) electron and hole mobility" msgstr "" msgid "Electron conductivity" msgstr "" msgid "Hole conductivity" msgstr "" msgid "Total PL intensity" msgstr "" msgid "Total PL Intensity" msgstr "" msgid "PL intensity at given energy" msgstr "" msgid "PL Intensity" msgstr "" msgid "Voltage applied to diode" msgstr "" msgid "band bend (percent)" msgstr "" msgid "band bend" msgstr "" msgid "percent" msgstr "" msgid "Dynamic quantum efficiency" msgstr "" msgid "Percent" msgstr "" #, python-brace-format msgid "H_{joule}" msgstr "" #, python-brace-format msgid "H_{recombination}" msgstr "" #, python-brace-format msgid "H_{parasitic}" msgstr "" msgid "Single states (S1)" msgstr "" msgid "Triplet states (T1)" msgstr "" msgid "Free carrier recombination rate" msgstr "" msgid "Free electron loss" msgstr "" msgid "Free hole loss" msgstr "" msgid "Relaxation" msgstr "" msgid "Electron current density left contact (J_y0_n)" msgstr "" msgid "Hole current density left contact (J_y0_p)" msgstr "" msgid "Electron current density right contact (J_y1_n)" msgstr "" msgid "Hole current density right contact (J_y1_p)" msgstr "" msgid "Electron drift current" msgstr "" msgid "Electron diffusion current" msgstr "" msgid "Hole drift current" msgstr "" msgid "Hole diffusion current" msgstr "" msgid " Hole diffusion current" msgstr "" msgid "Electron drift+diffusion current" msgstr "" msgid "Hole diffusion+diffusion current" msgstr "" msgid "Jn at contacts" msgstr "" msgid "Jp at contacts" msgstr "" msgid "External Current" msgstr "" msgid "dJn/dx at mid point" msgstr "" msgid "dElectron current density" msgstr "" msgid "dJp/dx at mid point" msgstr "" msgid "Current density at contacts" msgstr "" msgid "Current density (+noise)" msgstr "" msgid "Current " msgstr "" msgid "Voltage - Current density" msgstr "" msgid "Voltage - Current" msgstr "" msgid "Time - Current density" msgstr "" msgid "Time - Voltage" msgstr "" msgid "Fit error" msgstr "" msgid "au" msgstr "" msgid "Fit error (best fit)" msgstr "" msgid "Speed" msgstr "" msgid "odes/s" msgstr "" msgid "Chain all" msgstr "" msgid "Value" msgstr "" msgid "Chain accepted" msgstr "" msgid "Hist chain accepted" msgstr "" msgid "Freeing memory from the heat model\n" msgstr "" msgid "Loading file" msgstr "" #, python-format msgid "Expected dos size is different from generated %d %d\n" msgstr "" #, python-format msgid "genndosfdgaus: I can not write to the file %s\n" msgstr "" msgid "Bytes, written" msgstr "" msgid ", read" msgstr "" msgid "Files, read" msgstr "" msgid " written" msgstr "" msgid "I have shut down the server" msgstr "" msgid "Number of CPUs:" msgstr "" msgid "Start time" msgstr "" msgid "End time" msgstr "" msgid "Job stalled. Time since last run:" msgstr "" msgid "Computer cores:" msgstr "" msgid "Max threads:" msgstr "" msgid "All jobs finished jobs" msgstr "" msgid "An electrical mesh layer has zero length" msgstr "" msgid "You must load the optical plugin before making the time mesh" msgstr "" msgid "ones" msgstr "" msgid "Can't generate a mesh with zero points" msgstr "" msgid "The electrical mesh does not match the device length" msgstr "" msgid "If you want to run perovskite in fx-domain send me an e-mail." msgstr "" msgid "fxdomain mode not known" msgstr "" msgid "Running frequency" msgstr "" msgid "" "Optical modulation will come in the next version. If you want to use it " "drop me a mail..." msgstr "" msgid "fxdomain time" msgstr "" msgid "Light intensity" msgstr "" msgid "Ion density - position" msgstr "" msgid "Ion free" msgstr "" msgid "Ion convergence=" msgstr "" msgid "Ion diffusion" msgstr "" msgid "R spm" msgstr "" msgid "Vlost spm" msgstr "" msgid "V spm" msgstr "" msgid "Electrical circuit" msgstr "" msgid "Circuit" msgstr "" msgid "Current vector plot" msgstr "" msgid "Real refractive index" msgstr "" msgid "|Electric field|" msgstr "" msgid "Transmittance" msgstr "" msgid "Reflectance" msgstr "" msgid "Solve optical slice at" msgstr "" msgid "It was dark I did not solve any slices\n" msgstr "" msgid "Initializing optical model" msgstr "" msgid "dll function light_dll_init not found\n" msgstr "" msgid "dll function light_dll_solve_lam_slice not found\n" msgstr "" msgid "dll function light_dll_ver not found\n" msgstr "" msgid "Power density of the optical spectra (no filter):" msgstr "" msgid "File not found" msgstr "" msgid "Light: Load filter" msgstr "" msgid "Refractive index - position" msgstr "" msgid "Absorption - position" msgstr "" msgid "Photons absorbed - position" msgstr "" msgid "Photons absorbed" msgstr "" msgid "Position - Electric field (y+)" msgstr "" msgid "Position - Electric field (y-)" msgstr "" msgid "Freeing memory from the optical model\n" msgstr "" msgid "Electron generation rate" msgstr "" msgid "Optical heating" msgstr "" msgid "Charge carrier generation rate" msgstr "" msgid "Electrical Mesh Editor" msgstr "" msgid "" "Y\n" "Dimension" msgstr "" msgid "" "X\n" "Dimension" msgstr "" msgid "" "Z\n" "Dimension" msgstr "" msgid "" "Configure\n" "mesh" msgstr "" msgid "" "Import from\n" "layer editor" msgstr "" msgid "Remesh" msgstr "" msgid "Configure mesh" msgstr "" msgid "" "Are you sure you want to overwrite the electrical mesh with a guessed mesh " "based on the layer structure?" msgstr "" msgid "Copy" msgstr "" msgid "Copy as JSON" msgstr "" msgid "Copy json/python path" msgstr "" msgid "Copy ObjID" msgstr "" msgid "Copy as LaTex" msgstr "" msgid "Copy as csv" msgstr "" msgid "Paste" msgstr "" msgid "Reimport from database" msgstr "" msgid "Are you sure you want reimport the material values from:" msgstr "" msgid "File not found:" msgstr "" msgid "Edit reference" msgstr "" msgid "Delete reference" msgstr "" msgid "Add reference" msgstr "" msgid "This simulation" msgstr "" msgid "Electrical parameter editor for shape" msgstr "" msgid "Reference" msgstr "" msgid "Bibliography editor" msgstr "" msgid "New simulation" msgstr "" msgid "" "Open\n" "simulation" msgstr "" msgid "" "Export\n" "Zip" msgstr "" msgid "" "Run\n" "simulation" msgstr "" msgid "Run simulation" msgstr "" msgid "Tutorials" msgstr "" msgid "Manual" msgstr "" msgid "" "Follow on\n" "Bluesky" msgstr "" msgid "" "Subscribe\n" "on Youtube" msgstr "" msgid "Getting started" msgstr "" msgid "1D Simulations" msgstr "" msgid "Carrier trapping" msgstr "" msgid "2D electrical structures (OFETs)" msgstr "" msgid "Large area devices/circuit models" msgstr "" msgid "OLEDs" msgstr "" msgid "Material databases" msgstr "" msgid "Frequency domain simulations" msgstr "" msgid "Transient simulations" msgstr "" msgid "Optical simulations" msgstr "" msgid "Excitonic simulations" msgstr "" msgid "Fitting" msgstr "" msgid "Misc" msgstr "" msgid "Basics" msgstr "" msgid "" "Now save the simulation
Now select where you would like " "to save the simulation directory." msgstr "" msgid "password:" msgstr "" msgid "Wrong password" msgstr "" msgid "" "It's not a good idea to save the simulation in the installation directory. " "Try saving it somewhere else, such as your desktop or home directory." msgstr "" msgid "" "It's not a good idea to save the simulation in the oghma_local directory." msgstr "" msgid "" "That directory already exists. Pick another name or delete the old one." msgstr "" msgid "Please select a device before clicking next" msgstr "" msgid "Organic LED" msgstr "" msgid "Crystalline silicon solar cell" msgstr "" msgid "a-Si solar cell " msgstr "" msgid "polycrystalline silicon " msgstr "" msgid "OFET " msgstr "" msgid "Perovskite solar cell" msgstr "" msgid "CIGS Solar cell" msgstr "" msgid "Which type of device would you like to simulate?" msgstr "" msgid "Double click to open" msgstr "" msgid "Close" msgstr "" msgid "Show hidden" msgstr "" msgid "Object editor" msgstr "" msgid "" "Object\n" "enabled" msgstr "" msgid "" "Object\n" "disabled" msgstr "" msgid "About" msgstr "" msgid "" "Written by Roderick MacKenzie 2012-2023, released under the MIT software " "license." msgstr "" msgid "Version " msgstr "" msgid "" " is a general-purpose tool for simulation of light harvesting devices. It " "was originally written to simulate organic solar cells and OLEDs, but it has " "recently been extended to simulate other devices including silicon based " "devices. Currently the model can sumulate:" msgstr "" msgid "Organic solar cells" msgstr "" msgid "Organic LEDs" msgstr "" msgid "Crystalline silicon solar cells" msgstr "" msgid "a-Si solar cells" msgstr "" msgid "CIGS solar cells" msgstr "" msgid "" "The model solves both electron and hole drift-diffusion, and carrier " "continuity equations in position space to describe the movement of charge " "within the device. The model also solves Poisson's equation to calculate the " "internal electrostatic potential. Recombination and carrier trapping are " "described within the model using a Shockley-Read-Hall (SRH) formalism, the " "distribution of trap sates can be arbitrarily defined. All equations can be " "solved either in steady state or in time domain. A fuller description of the " "model can be found in the here, in the associated publications and in the " "manual." msgstr "" msgid "Legal" msgstr "" msgid "Translations" msgstr "" msgid "Paths" msgstr "" msgid "" "Materials\n" "database" msgstr "" msgid "" "Optical\n" "database" msgstr "" msgid "" "User\n" "data" msgstr "" msgid "" "Shape\n" "database" msgstr "" msgid "" "Morphology\n" "database" msgstr "" msgid "" "Filters\n" "database" msgstr "" msgid "" "Backup\n" "Simulaion" msgstr "" msgid "" "Solar spectrum\n" "generator" msgstr "" msgid "" "Update\n" "Databases" msgstr "" msgid "Add Material" msgstr "" msgid "Add Filter" msgstr "" msgid "Add Spectra" msgstr "" msgid "Add Shape" msgstr "" msgid "Add morphology" msgstr "" msgid "New backup" msgstr "" msgid "New backup:" msgstr "" msgid "New backup name" msgstr "" msgid "Time domain experiment window" msgstr "" msgid "Data sets" msgstr "" msgid "Loading" msgstr "" msgid "Rename:" msgstr "" msgid "Clone:" msgstr "" msgid "Are you sure you want to delete : " msgstr "" msgid "Make a new:" msgstr "" msgid "New" msgstr "" msgid "Delete file" msgstr "" msgid "Rename" msgstr "" msgid "Clone object" msgstr "" msgid "Disabled" msgstr "" msgid "Blur menu" msgstr "" msgid "Normalization editor" msgstr "" msgid "Shape editor" msgstr "" msgid "Shape" msgstr "" msgid "Configure honeycomb" msgstr "" msgid "Configure photonic xtal" msgstr "" msgid "Configure photonic lens" msgstr "" msgid "Configure saw wave" msgstr "" msgid "Configure gaussian" msgstr "" msgid "Configure boundary" msgstr "" msgid "Configure threshold" msgstr "" msgid "Configure" msgstr "" msgid "Optical spectrum editor" msgstr "" msgid "Spectra" msgstr "" msgid "Basic" msgstr "" msgid "Frequency mesh" msgstr "" msgid "Additional information about gpvdm is available at" msgstr "" msgid "Report bugs to:" msgstr "" msgid "displays the current version" msgstr "" msgid "Deletes the content of all scan directories." msgstr "" msgid "Loads a simulation --load /path/containing/simulation/sim.oghma" msgstr "" msgid "Extract the sim.oghma archive --unpack" msgstr "" msgid "Extract the sim.oghma archive --pack" msgstr "" msgid "Electrical parameter editor" msgstr "" msgid "Device" msgstr "" msgid "Morphology editor" msgstr "" msgid "General" msgstr "" msgid "" "Simulation\n" "Notes" msgstr "" msgid "" "Hints\n" "Window" msgstr "" msgid "" "Interface\n" "Language" msgstr "" msgid "" "User\n" "Forum" msgstr "" msgid "Assosiated paper" msgstr "" msgid "Documentation" msgstr "" msgid "Language" msgstr "" msgid "" "Record notes about the simulation here
Use this window " "to make notes about the simulation." msgstr "" msgid "Material gradient editor" msgstr "" msgid "Save" msgstr "" msgid "New scan" msgstr "" msgid "Delete scan" msgstr "" msgid "Clone scan" msgstr "" msgid "Rename scan" msgstr "" msgid "Clean all" msgstr "" msgid "Run all scans" msgstr "" msgid "Help" msgstr "" msgid "Plot fits" msgstr "" msgid "Run simulation no generation" msgstr "" msgid "Run single fit" msgstr "" msgid "Clean unconverged simulation" msgstr "" msgid "Clean simulation output" msgstr "" msgid "Push unconverged to hpc" msgstr "" msgid "Change dir" msgstr "" msgid "Report" msgstr "" msgid "Scan" msgstr "" msgid "Advanced" msgstr "" msgid "" "Import data\n" "from file" msgstr "" msgid "" "From\n" "Equation" msgstr "" msgid "Reference information" msgstr "" msgid "Cost" msgstr "" msgid "Cost of material" msgstr "" msgid "File" msgstr "" msgid "Align and distribute" msgstr "" msgid "Distribute" msgstr "" msgid "z" msgstr "" msgid "" "From\n" "File" msgstr "" msgid "Insert reference information" msgstr "" msgid "" "Are you sure you want to edit the circuit directly? The circuit will no " "longer automaticly be updated as you change the layer structure, and the " "electrical parameters editor will be disabled. Use can use the reset " "function in the circuit diagram editor to resore this functionality" msgstr "" msgid "Circuit diagram" msgstr "" msgid "Use epitaxy as base" msgstr "" msgid "Free hand drawing" msgstr "" msgid "Variable" msgstr "" msgid "Min" msgstr "" msgid "Max" msgstr "" msgid "Random function" msgstr "" msgid "JSON Variable" msgstr "" msgid "Configure hardware" msgstr "" msgid "" "Hardware\n" "benchmark" msgstr "" msgid "" "RNG\n" "test" msgstr "" msgid "" "Color map\n" "test" msgstr "" msgid "" "Clear\n" "Newton cache" msgstr "" msgid "CPU/GPU configuration" msgstr "" msgid "Newton cache" msgstr "" msgid "Random numbers" msgstr "" msgid "Matrix solvers" msgstr "" msgid "Electrostatic solver" msgstr "" msgid "Drift diffusion" msgstr "" msgid "Edit microcode" msgstr "" msgid "Simple circuit solver" msgstr "" msgid "Poission solver" msgstr "" msgid "Poission solver configuration" msgstr "" msgid "Newton solver" msgstr "" msgid "Singlet solver" msgstr "" msgid "Newton solver configuration" msgstr "" msgid "Configuration" msgstr "" msgid "Circuit solver configuration" msgstr "" msgid "Data imported from: " msgstr "" msgid "Layer editor" msgstr "" msgid "Layer name" msgstr "" msgid "Thicknes" msgstr "" msgid "Layer type" msgstr "" msgid "" "Solve optical\n" "problem" msgstr "" msgid "ID" msgstr "" msgid "start:" msgstr "" msgid "stop:" msgstr "" msgid "Red=not found in materials DB" msgstr "" msgid "" "Enable\n" "Drift Diff." msgstr "" msgid "" "Dynamic\n" "SRH traps" msgstr "" msgid "Min trap depth" msgstr "" msgid "Max trap depth" msgstr "" msgid "Min Fermi level" msgstr "" msgid "Fn points" msgstr "" msgid "Fermi integral points" msgstr "" msgid "" "Enable\n" "Auger" msgstr "" msgid "" "Equilibrium\n" "SRH traps" msgstr "" msgid "Excitons" msgstr "" msgid "" "Excited\n" "states laser" msgstr "" msgid "Photon rate equation" msgstr "" msgid "" "Excited\n" "states OPV" msgstr "" msgid "Carrier density points" msgstr "" msgid "Fermi-dirac integral steps" msgstr "" msgid "That's not a number.." msgstr "" msgid "Minimum trap depth (eV):" msgstr "" msgid "Maximum trap depth (eV):" msgstr "" msgid "Minimum fermi level (eV):" msgstr "" msgid "Number of carrier density points to calculate:" msgstr "" msgid "Number of steps in the Fermi-dirac integral:" msgstr "" msgid "DoS Config" msgstr "" msgid "Dos Config" msgstr "" msgid "" "Light\n" "Sources" msgstr "" msgid "" "Lasers\n" "(fs)" msgstr "" msgid "" "Transfer\n" "Matrix" msgstr "" msgid "" "Optical\n" "Outcoupling" msgstr "" msgid "" "Ray tracing\n" "editor" msgstr "" msgid "" "Optical\n" "Detectors" msgstr "" msgid "" "FDTD\n" "Simulation" msgstr "" msgid "" "Mode\n" "Calculator" msgstr "" msgid "" "Optical\n" "thickness" msgstr "" msgid "" "Optical\n" "mesh" msgstr "" msgid "" "Boundary\n" "Conditions" msgstr "" msgid "" "Laser setup
Use this window to set up your lasers." msgstr "" msgid "" "The light sources window
Use this window to setup " "optical sources for the transfer matrix, ray tracing and FDTD simulations." msgstr "" msgid "" "The ray tracing editor
Use this window to configure " "ray tracing." msgstr "" msgid "" "The detectors window
Use this window to setup optical " "detectors. These can be used for the ray tracing simulations." msgstr "" msgid "" "FDTD
Use this window to setup a finite difference time " "domain simulation." msgstr "" msgid "" "Mode calculator
Use this window to setup a the optical " "mode calculator." msgstr "" msgid "" "Mesh editor\n" "Use this window to setup the mesh, the window can also be used to change the " "dimensionality of the simulation." msgstr "" msgid "Optical Mesh Editor" msgstr "" msgid "Boundary conditions" msgstr "" msgid "" "The optical simulation window
Use this window to " "perform optical simulations. Click on the play button to run a simulation." msgstr "" msgid "" "Click on the play button to run an optical simulation. The results will be " "displayed in the tabs to the right." msgstr "" msgid "" "Tutorial " "video
Designing optical filters and reflective coatings." msgstr "" msgid "" "The optical outcoupling window
Use this window to " "calculate how much light escapes the device. This is useful whend designing " "OLEDs and other light emitting structures." msgstr "" msgid "" "Optical thickness
Usually the optical thickness of a " "layer will be taken from the layer structure set out in the layer editor. " "However, sometimes one wants to simulate very thick layers. This window will " "enable you to force the optical thickness to a value while maintaining it's " "physical thickness." msgstr "" msgid "Edit parasitic components" msgstr "" msgid "Parasitic components" msgstr "" msgid "New morphology name:" msgstr "" msgid "New morphology name" msgstr "" msgid "Registration window" msgstr "" msgid "Enter the license key below:" msgstr "" msgid "Can't open file " msgstr "" msgid "No files were given to load" msgstr "" msgid "" "3D\n" "Mode" msgstr "" msgid "Cache path:" msgstr "" msgid "Newton cache used" msgstr "" msgid "The cache directory does not exist" msgstr "" msgid "The cache path needs to end in cache." msgstr "" msgid "The cache is empty" msgstr "" msgid "I have emptied the cache" msgstr "" msgid "" "Simulation finished!
Click on the plot icon to plot the " "results" msgstr "" msgid "Fit variables duplicate window" msgstr "" msgid "Destination" msgstr "" msgid "Source (JSON)" msgstr "" msgid "Destination (JSON)" msgstr "" msgid "Fit configure" msgstr "" msgid "Duplicate variables" msgstr "" msgid "Fit variables" msgstr "" msgid "Fit rules" msgstr "" msgid "Configure minimizer" msgstr "" msgid "Generaton rate editor" msgstr "" msgid "Generation rate (m^{-3}s^{-1})" msgstr "" msgid "json id" msgstr "" msgid "Add" msgstr "" msgid "Delete row" msgstr "" msgid "Move down" msgstr "" msgid "Move up" msgstr "" msgid "Script" msgstr "" msgid "Copy path (json)" msgstr "" msgid "Reference manager" msgstr "" msgid "" "Layer\n" "editor" msgstr "" msgid "" "Electrical\n" "parameters" msgstr "" msgid "" "Emission\n" "parameters" msgstr "" msgid "" "Substrate\n" "xz-size" msgstr "" msgid "" "Contacts window\n" "Use this window to change the layout of the contacts on the device" msgstr "" msgid "" "Device layers\n" "Use this window to configure the structure of the device." msgstr "" msgid "" "xz dimension editor\n" "Use this window to configure the xz size of the device." msgstr "" msgid "" "Electrical parameters\n" "Use this window to change the electrical parameters of each layer." msgstr "" msgid "" "Emission parameters\n" "Use this window to set if a layer emits light or not. You can choose " "between theoretically calculated emission spectra and imported experimental " "spectra." msgstr "" msgid "Frequency start" msgstr "" msgid "Frequency stop" msgstr "" msgid "Max points" msgstr "" msgid "Multiply" msgstr "" msgid "Parameter scan window" msgstr "" msgid "Calculate" msgstr "" msgid "Export spectrum" msgstr "" msgid "Spectrum" msgstr "" msgid "Edit contacts" msgstr "" msgid "Top/Bottom" msgstr "" msgid "" "Applied\n" "voltage" msgstr "" msgid "Start" msgstr "" msgid "Width" msgstr "" msgid "Contact resistance\n" msgstr "" msgid "" "Charge density/\n" "Fermi-offset" msgstr "" msgid "" "Majority\n" "carrier" msgstr "" msgid "" "Physical\n" "model" msgstr "" msgid "" "Minority\n" "carrier" msgstr "" msgid "Neural networks editor" msgstr "" msgid "" "Compile\n" "to json" msgstr "" msgid "Reporting error...." msgstr "" msgid "Length" msgstr "" msgid "Start Voltage" msgstr "" msgid "Stop Voltage" msgstr "" msgid "step multiplyer" msgstr "" msgid "Sun start" msgstr "" msgid "Sun stop" msgstr "" msgid "Laser start" msgstr "" msgid "Laser stop" msgstr "" msgid "Enter the time at which the laser pulse will fire (-1) to turn it off" msgstr "" msgid "Enter the start time of the simulation" msgstr "" msgid "Home" msgstr "" msgid "Zoom" msgstr "" msgid "Move" msgstr "" msgid "Autoscale" msgstr "" msgid "Log x" msgstr "" msgid "Log y" msgstr "" msgid "Log z" msgstr "" msgid "Transpose" msgstr "" msgid "Flip x" msgstr "" msgid "Flip y" msgstr "" msgid "Flip z" msgstr "" msgid "Plot" msgstr "" msgid "Scale" msgstr "" msgid "" "Set\n" "Temperature" msgstr "" msgid "" "Configure\n" "Model" msgstr "" msgid "" "Joule\n" "Heating" msgstr "" msgid "" "Parasitic\n" "Heating" msgstr "" msgid "" "Optical\n" "Heating" msgstr "" msgid "" "Recombination\n" "heating" msgstr "" msgid "" "Thermal\n" "parameters" msgstr "" msgid "" "Thermal\n" "mesh" msgstr "" msgid "" "Thermal parameters\n" "Use this window to change the thermal parameters of each layer." msgstr "" msgid "Enter the new temperature" msgstr "" msgid "Thermal boundary conditions" msgstr "" msgid "Configure thermal model" msgstr "" msgid "" "Mesh editor\n" "Use this window to setup the mesh." msgstr "" msgid "Thermal Mesh Editor" msgstr "" msgid "Updater" msgstr "" msgid "Update" msgstr "" msgid "Server" msgstr "" msgid "Update issued" msgstr "" msgid "Remote Size" msgstr "" msgid "Status" msgstr "" msgid "JSON x" msgstr "" msgid "JSON y" msgstr "" msgid "Thermal parameter editor" msgstr "" msgid "" "Thermal\n" "effects" msgstr "" msgid "Device structure" msgstr "" msgid "" "The device structure tab
Use this tab to change the " "structure of the device, the layer thicknesses and to perform optical " "simulations. You can also browse the materials data base and edit the " "electrical mesh." msgstr "" msgid "Terminal" msgstr "" msgid "" "The terminal window
The output of the model will be " "displayed in this window, watch this screen for debugging and convergence " "information." msgstr "" msgid "Tutorials/Documentation" msgstr "" msgid "" "Tutorials/Documentation
Here you can find tutorials, " "videos, worksheets, and talks about this software and simulating opto-" "electronic devices in general. Although this software is easy to use with " "it's friendly interface, under the hood it is a highly complex model and " "powerful model, it is worth taking time to read the documentation to " "understand it. This will enable you to get the most out of this software " "and your experimental data." msgstr "" msgid "" "Watch the video
Performing my first solar cell simulation" msgstr "" msgid "Output" msgstr "" msgid "" "Output
This shows the root simulation directory, this " "is where the results are stored. Double click on a file to see what is in " "it.." msgstr "" msgid "Information" msgstr "" msgid "Non-linear" msgstr "" msgid "Multi diode+S " msgstr "" msgid "Multi diode+S (||)" msgstr "" msgid "Tools" msgstr "" msgid "Scroll" msgstr "" msgid "Clean" msgstr "" msgid "Fit the simulation to experimental data" msgstr "" msgid "" "Fitting\n" "variables" msgstr "" msgid "" "The fitting variables window
Use this window to select " "the variables use to perform the fit." msgstr "" msgid "Export the simulation" msgstr "" msgid "Zip file" msgstr "" msgid "Error function" msgstr "" msgid "Log scale" msgstr "" msgid "Open file" msgstr "" msgid "Back" msgstr "" msgid "Complex Density of states editor" msgstr "" msgid "LUMO numerical" msgstr "" msgid "HOMO numerical" msgstr "" msgid "Please cite these papers:" msgstr "" msgid "If you publish a paper, book or thesis using results from " msgstr "" msgid "Please register to use OghmaNano. Thanks!" msgstr "" msgid "First name" msgstr "" msgid "Surname" msgstr "" msgid "Company/University" msgstr "" msgid "E-mail" msgstr "" msgid "Confirm e-mail" msgstr "" msgid "I heard about OghmaNano from:" msgstr "" msgid "I am most interested in simulating:" msgstr "" msgid "This is not a valide e-mail address" msgstr "" msgid "The e-mail addresses do not match." msgstr "" msgid "Please enter your first name." msgstr "" msgid "Please enter your surname." msgstr "" msgid "Please enter your Company/University." msgstr "" msgid "Please enter how you heard about OghmaNano." msgstr "" msgid "Please enter what you plan on using OghmaNano for." msgstr "" msgid "" "Your version of OghmaNano is too old to register, please download the latest " "version." msgstr "" msgid " will not work until you register. Would do you want to exit?" msgstr "" msgid "Light source (y0)" msgstr "" msgid "Light source" msgstr "" msgid "Filters (y0)" msgstr "" msgid "Filters" msgstr "" msgid "Current error" msgstr "" msgid "Run optical simulation" msgstr "" msgid "" "Transfer\n" "matrix" msgstr "" msgid "" "Transfer\n" "matrix FD" msgstr "" msgid "" "Exponential\n" "profile" msgstr "" msgid "" "Flat\n" "profile" msgstr "" msgid "" "From\n" "file" msgstr "" msgid "" "From QE\n" "spectra" msgstr "" msgid "" "Constant\n" "value" msgstr "" msgid "Edit constant" msgstr "" msgid "Optics" msgstr "" msgid "" "Machine\n" "Learning" msgstr "" msgid "" "Edit\n" "Probes" msgstr "" msgid "" "Parameter\n" "scan" msgstr "" msgid "" "Fit to\n" "experiment" msgstr "" msgid "" "Json\n" "explorer" msgstr "" msgid "Matlab paths" msgstr "" msgid "Python paths" msgstr "" msgid "" "Probes window
Use this window to setup simulation " "probes, which can be used to extract values from the simulations at any " "given mesh point." msgstr "" msgid "" "Machine learning window
Use this window to generate " "machine learning vectors" msgstr "" msgid "" "The scan window
Very often it is useful to be able to " "systematically very a device parameter such as mobility or density of trap " "states. This window allows you to do just that." msgstr "" msgid "Use the plus icon to add a new scan line to the list." msgstr "" msgid "" "Tutorial " "video
Using the parameter scan window." msgstr "" msgid "" "Fit window
Use this window to fit the simulation to " "experimental data. The model uses advanced and optimized fitting algorithms " "to fit the model to your experimental data, so that material parameters such " "as mobilities and recombination rates can be extracted." msgstr "" msgid "" "Watch the " "tutorial video 1
Fitting the model to experimental data to " "extract mobility and recombination rate parameters." msgstr "" msgid "" "Watch the " "tutorial video 2
Fitting the model to large area solar cells" msgstr "" msgid "Run scan" msgstr "" msgid "Clean simulation" msgstr "" msgid "Fast Optimizer" msgstr "" msgid "Build scan" msgstr "" msgid "Rerun" msgstr "" msgid "Archive simulations" msgstr "" msgid "Notes" msgstr "" msgid "Simulations" msgstr "" msgid "New experiment" msgstr "" msgid "Delete experiment" msgstr "" msgid "Refresh" msgstr "" msgid "Clone experiment" msgstr "" msgid "Rename experiment" msgstr "" msgid "" "Export\n" "Data" msgstr "" msgid "Import data" msgstr "" msgid "One itteration" msgstr "" msgid "Run fit" msgstr "" msgid "" "Fit this\n" "data set" msgstr "" msgid "" "Dont' fit this\n" "data set" msgstr "" msgid "" "Duplicate\n" "variables" msgstr "" msgid "" "Fit\n" "rules" msgstr "" msgid "" "Nelder–Mead\n" "(Downhill simplex)" msgstr "" msgid "Newton" msgstr "" msgid "" "Thermal\n" "Annealing" msgstr "" msgid "" "Markov chain\n" "Monte Carlo (MCMC)" msgstr "" msgid "" "Hamiltonian\n" "Monte Carlo (HMC)" msgstr "" msgid "" "No-U-Turn\n" "Sampler (NUTS)" msgstr "" msgid "" "Configure\n" "minimizer" msgstr "" msgid "Experimental data" msgstr "" msgid "Minimizer" msgstr "" msgid "Mesh point" msgstr "" msgid "Max pos y-slice" msgstr "" msgid "Max pos y-slice STD-Left" msgstr "" msgid "Max pos y-slice STD-Right" msgstr "" msgid "Max pos y-slice val" msgstr "" msgid "Max pos y-slice STD-Left val" msgstr "" msgid "Max pos y-slice STD-Right val" msgstr "" msgid "Value at x point" msgstr "" msgid "x:" msgstr "" msgid "y:" msgstr "" msgid "z:" msgstr "" msgid "Add layer" msgstr "" msgid "Add object inside" msgstr "" msgid "Delete" msgstr "" msgid "Copy json" msgstr "" msgid "Join mesh" msgstr "" msgid "Group (Ctrl+G)" msgstr "" msgid "Ungroup (Ctrl+U)" msgstr "" msgid "Copy path (Python)" msgstr "" msgid "View" msgstr "" msgid "Show solid" msgstr "" msgid "Show mesh" msgstr "" msgid "Show cut through x" msgstr "" msgid "Show cut through y" msgstr "" msgid "New shape name" msgstr "" msgid "Isothermal" msgstr "" msgid "" "Thermal model\n" "enabled" msgstr "" msgid "" "Thermal solver switched on
The heat equation will be " "solved across the device" msgstr "" msgid "" "Iso-thermal\n" "model" msgstr "" msgid "" "Isothermal mode
A single temperature will be assumed " "across the entire device." msgstr "" msgid "Simulation" msgstr "" msgid "Laser start time" msgstr "" msgid "Simulation start time" msgstr "" msgid "Loop" msgstr "" msgid "Config" msgstr "" msgid "Loop configuration" msgstr "" msgid "Random variables" msgstr "" msgid "Patch" msgstr "" msgid "Duplicate" msgstr "" msgid "Neural networks" msgstr "" msgid "Could not compile json." msgstr "" msgid "Json compiled to: " msgstr "" msgid "Copying files and configuring" msgstr "" msgid "Finish time:" msgstr "" msgid "Running" msgstr "" msgid "Cluster status" msgstr "" msgid "Constant bias" msgstr "" msgid "Change" msgstr "" msgid "From file" msgstr "" msgid "" "Export\n" "image" msgstr "" msgid "Filters
Use this tab to edit the optical filters" msgstr "" msgid "Filter editor" msgstr "" msgid "Filter" msgstr "" msgid "Not a valid license number" msgstr "" msgid "This key has been used too many times." msgstr "" msgid "This key has expired." msgstr "" msgid "" "This version of OghmaNano is too old to validate it's key, please download " "the latest version." msgstr "" msgid "Can't access the internet" msgstr "" msgid "Key manager" msgstr "" msgid "Data" msgstr "" msgid "" "JV\n" "editor" msgstr "" msgid "" "Time domain\n" "editor." msgstr "" msgid "" "FX domain\n" "editor" msgstr "" msgid "" "CV\n" "editor" msgstr "" msgid "" "Suns Voc\n" "editor" msgstr "" msgid "" "Suns Jsc\n" "editor" msgstr "" msgid "" "CE\n" "editor" msgstr "" msgid "" "PL\n" "editor" msgstr "" msgid "" "Quantum\n" "efficiency" msgstr "" msgid "" "Electrical\n" "equilibrium" msgstr "" msgid "" "Polynomial\n" "editor" msgstr "" msgid "" "Calculate\n" "the cost" msgstr "" msgid "" "scanning probe\n" "microscopy" msgstr "" msgid "" "Output\n" "Files" msgstr "" msgid "" "Simulation\n" "Hardware" msgstr "" msgid "" "The time mesh editor
To do time domain simulations one " "must define how voltage the light vary as a function of time. This can be " "done in this window. Also use this window to define the simulation length " "and time step." msgstr "" msgid "" "Frequency domain mesh editor
Some times it is useful " "to do frequency domain simulations such as when simulating impedance " "spectroscopy. This window will allow you to choose which frequencies will " "be simulated." msgstr "" msgid "" "Capacitance voltage editor
Use this editor to change " "serup capacitance voltage simulation." msgstr "" msgid "" "Scanning probe microscopy
Use this window to configure " "the scanning probe microscopy simulations." msgstr "" msgid "" "PL simulation editor
Use this window to configure the " "steady state photoluminescence simulation." msgstr "" msgid "" "Watch the " "youtube video
Watch the video on perfomring PL simulation." msgstr "" msgid "" "Suns voc simulation editor
Use this window to select " "the step size and parameters of the JV simulations." msgstr "" msgid "" "Suns Jsc simulation editor
Use this window to select " "the step size and parameters of the JV simulations." msgstr "" msgid "" "Charge Extraction editor
This performs charge " "extraction experiments in time domain, accounting for recombination losses. " "If you don’t mind about accounting for recombination losses on extraction " "just run a JV curve or a Suns-Voc simulation and use the charge.dat file." msgstr "" msgid "" "Costs window\n" "Use this window to calculate the cost of the solar cell and the energy " "payback time." msgstr "" msgid "" "JV simulation editor
Use this window to configure JV " "simulations." msgstr "" msgid "" "Polynomial editor
Use this window to generate random " "date sets for resting the fitting model." msgstr "" msgid "" "Simulation hardware
Use this window to change how the " "model uses the computer's hardware." msgstr "" msgid "Output files" msgstr "" msgid "Banned files and tokens" msgstr "" msgid "Noise" msgstr "" msgid "File name" msgstr "" msgid "Probe" msgstr "" msgid "Neural network editor" msgstr "" msgid "ML Input vector" msgstr "" msgid "ML Output vector" msgstr "" msgid "" "The scan window
Now using the drop down menu in the " "prameter to change 'column', select the device parameter you wish to vary, " "an example may be dos0/Electron Mobility. Now enter the values you would " "like it to scan oveer in the 'Values', an example could be '1e-3 1e-4 1e-5 " "1e-6'. And hit the double arrorw to run the simulation." msgstr "" msgid "Optimizer" msgstr "" msgid "Scan - Configure Optimizer" msgstr "" msgid "Solar Spectrum Generator" msgstr "" msgid "Plot token values" msgstr "" msgid "" "Ray\n" "trace" msgstr "" msgid "" "Perfect\n" "outcoupling" msgstr "" msgid "time mesh" msgstr "" msgid "Explore the simulation data structure" msgstr "" msgid "Ohmic" msgstr "" msgid "Blocking (full)" msgstr "" msgid "Ohmic+barrier" msgstr "" msgid "Schottky barrier" msgstr "" msgid "Interface editor" msgstr "" msgid "Sim name" msgstr "" msgid "Vectors" msgstr "" msgid "Cluster get data" msgstr "" msgid "Copy src to cluster" msgstr "" msgid "Make on cluster" msgstr "" msgid "Clean cluster" msgstr "" msgid "Kill all cluster code" msgstr "" msgid "Sync" msgstr "" msgid "Machine learning" msgstr "" msgid "" "Build\n" "vectors" msgstr "" msgid "" "Norm\n" "vectors" msgstr "" msgid "" "Run\n" "Generator" msgstr "" msgid "Clean files" msgstr "" msgid "Generator" msgstr "" msgid "Clone" msgstr "" msgid "Could not make ml_dir: " msgstr "" msgid "Building simulations: " msgstr "" msgid "Building vectors: " msgstr "" msgid "New shape name:" msgstr "" msgid "I cant write to:" msgstr "" msgid "" "This means either the disk is full or your system administrator has not " "given you write permissions to that location." msgstr "" msgid "Merge shapes to new" msgstr "" msgid "name" msgstr "" msgid "path" msgstr "" msgid "ip" msgstr "" msgid "start" msgstr "" msgid "CPUs" msgstr "" msgid "status" msgstr "" msgid "Adding: " msgstr "" msgid "No sim dir name" msgstr "" msgid "" "I can't load flat_list.inp. This usually means there is a problem with how " "you have set up your scan." msgstr "" msgid "Problem loading file." msgstr "" msgid "Problem generating tree." msgstr "" msgid "Script editor" msgstr "" msgid "Code" msgstr "" msgid "Simulation Notes" msgstr "" msgid "Rebuild" msgstr "" msgid "The following erros/warning were found while running the simulations:" msgstr "" msgid "Output vectors for " msgstr "" msgid "ML Token" msgstr "" msgid "Symmetric" msgstr "" msgid "Asymmetric" msgstr "" msgid "Gaussian" msgstr "" msgid "Lorentzian" msgstr "" msgid "Exponential" msgstr "" msgid "Colors" msgstr "" msgid "Save as" msgstr "" msgid "Save as image" msgstr "" msgid "Save as gobj" msgstr "" msgid "Optical" msgstr "" msgid "Show photons" msgstr "" msgid "FDTD grid" msgstr "" msgid "Optical mode" msgstr "" msgid "Rays" msgstr "" msgid "Solid rays" msgstr "" msgid "Show detectors" msgstr "" msgid "Show device" msgstr "" msgid "Grid" msgstr "" msgid "Coordinates" msgstr "" msgid "Show text" msgstr "" msgid "Show Dimensions" msgstr "" msgid "Show plot" msgstr "" msgid "Transparent objects" msgstr "" msgid "Ray tracing mesh" msgstr "" msgid "Show world box" msgstr "" msgid "Show electrical box" msgstr "" msgid "Show thermal box" msgstr "" msgid "Lock view" msgstr "" msgid "Show gl lights" msgstr "" msgid "Show buttons" msgstr "" msgid "Stars" msgstr "" msgid "Font" msgstr "" msgid "Background color" msgstr "" msgid "Interface background color" msgstr "" msgid "Interface text color" msgstr "" msgid "Objects" msgstr "" msgid "New free object" msgstr "" msgid "New light source" msgstr "" msgid "New detector" msgstr "" msgid "Rescale" msgstr "" msgid "Object tree" msgstr "" msgid "Copy image" msgstr "" msgid "Paste json" msgstr "" msgid "Object tree viewer" msgstr "" msgid "Device view" msgstr "" msgid "Python Equation" msgstr "" msgid "You've made a mistake in the equation, use w for wavelength. " msgstr "" msgid "Are you sure you wisht to import this, it will overwrite " msgstr "" msgid "Equation editor" msgstr "" msgid "" "Import\n" "into model" msgstr "" msgid "Add section" msgstr "" msgid "Delete section" msgstr "" msgid "" "Your version of OghmaNano is now out of date. To continue using OghmaNano " "please download a new version at https://www.oghma-nano.com." msgstr "" msgid "Update available!
Download it now from Interface editor\n" "Use this window to edit how electrical interfaces behave." msgstr "" msgid "Electrical boundary conditions" msgstr "" msgid "Excitonic boundary conditions" msgstr "" msgid "" "Doping window\n" "Use this window to add doping to the simulation" msgstr "" msgid "" "Gradients window\n" "Use this window to add doping to the simulation" msgstr "" msgid "" "Parasitic components\n" "Use this window to edit the shunt and series resistance." msgstr "" msgid "Exciton solver" msgstr "" msgid "Exciton configuration" msgstr "" msgid "Load type" msgstr "" msgid "Multiplyer" msgstr "" msgid "" "External\n" "interface:" msgstr "" msgid "" "External\n" "Reflection" msgstr "" msgid "Reflective interface editor" msgstr "" msgid "Connect to cluster" msgstr "" msgid "Connect" msgstr "" msgid "Disconnect" msgstr "" msgid "Cancel" msgstr "" msgid "" "The device structure tab\n" " Use this tab to change the structure of the device, the layer thicknesses " "and to perform optical simulations. You can also browse the materials data " "base and edit the electrical mesh." msgstr "" msgid "Update available!
" msgstr "" msgid "Play" msgstr "" msgid "Snapshot slider" msgstr "" msgid "File to plot" msgstr "" msgid "Plot type" msgstr "" msgid "Show labels" msgstr "" msgid "Normalize layer width" msgstr "" msgid "Image" msgstr "" msgid "Image path" msgstr "" msgid "Gnuplot" msgstr "" msgid "Csv" msgstr "" msgid "Text file (txt)" msgstr "" msgid "MS Excel (xlsx)" msgstr "" msgid "Graph" msgstr "" msgid "Show title" msgstr "" msgid "Show key" msgstr "" msgid "Show axis" msgstr "" msgid "Show data" msgstr "" msgid "Show free carriers" msgstr "" msgid "Show trapped carriers" msgstr "" msgid "Open data file" msgstr "" msgid "Load/Import" msgstr "" msgid "Next" msgstr "" msgid "Online help" msgstr "" msgid "On line help" msgstr "" msgid "Hide" msgstr "" msgid "OghmaNano in your language!" msgstr "" msgid "OghmaNano translated by:" msgstr "" msgid "Dimension editor" msgstr "" msgid "Substrate xz size" msgstr "" msgid "World size" msgstr "" msgid "Select simulation parameter" msgstr "" msgid "OK" msgstr "" msgid "No row selected in the scan window, can't insert the selection" msgstr "" msgid "New material" msgstr "" msgid "New spectra" msgstr "" msgid "New shape" msgstr "" msgid "New filter" msgstr "" msgid "New morphology" msgstr "" msgid "Unpack archive" msgstr "" msgid "Copy the file to be called:" msgstr "" msgid "The file name already exists" msgstr "" msgid "Rename the simulation to be called:" msgstr "" msgid "Are you sure you want to delete the files ?" msgstr "" msgid "You should now have a sim.json file in: " msgstr "" msgid "Open this directory to see it." msgstr "" msgid "Light source editor" msgstr "" msgid "Material editor" msgstr "" msgid "Refractive index (n)" msgstr "" msgid "k" msgstr "" msgid "Thermal parameters" msgstr "" msgid "Life cycle" msgstr "" msgid "" "Electrical parameters
Use this tab to configure the " "electrical parameters for the material." msgstr "" msgid "Absorption
" msgstr "" msgid "Refractive index
" msgstr "" msgid "Emission spectrum
" msgstr "" msgid "Don't run me as root!!" msgstr "" msgid "I can't run from inside a zip file!" msgstr "" msgid "" "New simulation!
Now selected the type of device you " "would like to simulate." msgstr "" msgid "" "Now run the simulation
Click on the play icon to start " "a simulation." msgstr "" msgid "" "Hi!
I'm the on-line help system :). If you have any " "questions or find any bugs please post them to the OghmaNano User forum https://www.oghma-nano.com/forum/" "." msgstr "" msgid "Click on the new icon to make a new simulation directory." msgstr "" msgid "Open an existing simulation" msgstr "" msgid "" "To open this file I need to rename it to have a .oghma extention. Do you " "want me to do that?. I would rename the file: " msgstr "" msgid "The simulation directory has been deleted." msgstr "" msgid "" "Examine the results in time domain
After you have run " "a simulation in time domain, if is often nice to be able to step through the " "simulation and look at the results. This is what this window does. Use the " "slider bar to move through the simulation. When you are simulating a JV " "curve, the slider sill step through voltage points rather than time points." msgstr "" msgid "" "Are you sure you want restore this file from the backup, it will overwrite " "all files in the simulation directory?" msgstr "" msgid "Simulation information" msgstr "" msgid "title" msgstr "" msgid "x axis" msgstr "" msgid "y axis" msgstr "" msgid "equilibrium" msgstr "" msgid "This contains the simulation output at 0V in the dark." msgstr "" msgid "Quantum efficiency editor" msgstr "" msgid "JV experiment window" msgstr "" msgid "Polynomial data generator" msgstr "" msgid "Suns v.s. Voc" msgstr "" msgid "Suns Jsc simulation editor" msgstr "" msgid "Charge extraction experiment window" msgstr "" msgid "PL experiment window" msgstr "" msgid "Laser editor" msgstr "" msgid "Scanning probe microscopy editor" msgstr "" msgid "FDTD Editor" msgstr "" msgid "CV experiment window" msgstr "" msgid "Electrical equilibrium solver" msgstr "" msgid "mode Editor" msgstr "" msgid "Ray trace editor" msgstr "" msgid "Frequency domain experiment window" msgstr "" msgid "Probes" msgstr "" msgid "Attenuation" msgstr "" msgid "Luminescence editor" msgstr "" msgid "" "Optical\n" "Emission" msgstr "" msgid "" "Luminescence\n" "If you set 'Turn on luminescence' to true, the simulation will assume " "recombination is a raditave process and intergrate it to produce Voltage-" "Light intensity curves (lv.dat). Each number in the tab tells the model how " "efficient each recombination mechanism is at producing photons." msgstr "" msgid "All" msgstr "" msgid "Wavelengths" msgstr "" msgid "Youtube channel" msgstr "" msgid "Quit" msgstr "" msgid "" "Stop\n" "simulation" msgstr "" msgid "Mesh Auto" msgstr "" msgid "Stop" msgstr "" msgid "Step multiply" msgstr "" msgid "points" msgstr "" msgid "Mesh points" msgstr "" msgid "Flyby video maker" msgstr "" msgid "" "Set\n" "position" msgstr "" msgid "Goto" msgstr "" msgid "Run" msgstr "" msgid "window width not divisible by two" msgstr "" msgid "window height not divisible by two" msgstr "" msgid "and " msgstr "" msgid " more." msgstr "" msgid "Should I delete these files?:\n" msgstr "" msgid "command line tool" msgstr "" msgid "Prints the used paths" msgstr "" msgid "www.pvlighthouse.com.au sync" msgstr "" msgid "Load new image" msgstr "" msgid "" "Original\n" "image" msgstr "" msgid "" "Generate\n" "Image" msgstr "" msgid "" "Show\n" "Mesh" msgstr "" msgid "" "Edit\n" "Mesh" msgstr "" msgid "" "Build\n" "Mesh" msgstr "" msgid "" "Generate\n" "Honeycomb" msgstr "" msgid "" "Generate\n" "Xtal" msgstr "" msgid "" "Generate\n" "lens" msgstr "" msgid "" "Generate\n" "Gaussian" msgstr "" msgid "" "Saw\n" "wave" msgstr "" msgid "Blur" msgstr "" msgid "Edit blur" msgstr "" msgid "" "Normalize\n" "y" msgstr "" msgid "Edit histogram" msgstr "" msgid "" "Normalize\n" "z" msgstr "" msgid "Threshold" msgstr "" msgid "Boundary" msgstr "" msgid "Apply" msgstr "" msgid "2D Image" msgstr "" msgid " Simulation Editors
Use this tab to edit the simulation " "you wish to perform, you can choose from steady state measurments such as JV " "curve/Suns-Voc, time domain or frequency domain. You can also choose to use " "advanced optical models to understand your data." msgstr "" msgid "" "Configure
Use this tab to control advanced features of " "the simulation, such as finite difference mesh, amount of data written to " "disk, and the configuration of the back end numerical solvers." msgstr "" msgid "" "Simulation type
Use this tab to select which " "simulation mode the model runs in, select between steady state, time domain, " "frequency domain and optical simulations." msgstr "" msgid "Databases" msgstr "" msgid "" "Databases
Use this tab to explore the materials and " "optical data bases, you can add and download more materials/optical models " "using the tools here." msgstr "" msgid "" "Information
Access extra information about the model " "in this tab, there are lots of tutorial videos on YouTube, follow on Twitter " "for the latest updates." msgstr "" msgid "Automation" msgstr "" msgid "Electrical" msgstr "" msgid "Thermal" msgstr "" msgid "Simulation mode changed
" msgstr "" msgid "Key not found" msgstr "" msgid "User not found" msgstr "" msgid "" "This version of the software is too old to validate it's key, please " "download the latest version." msgstr "" msgid "OghmaNano trial" msgstr "" msgid "Optical simulation editor" msgstr "" msgid "Photon distribution" msgstr "" msgid "Photon distribution absorbed" msgstr "" msgid "Configure transfer matrix solver" msgstr "" msgid "m" msgstr "" msgid "cm" msgstr "" msgid "mm" msgstr "" msgid "um" msgstr "" msgid "nm" msgstr "" msgid "pm" msgstr "" msgid "fm" msgstr "" msgid "Optical thickness editor" msgstr "" msgid "File or token to ban" msgstr "" msgid "Sigma of noise" msgstr "" msgid "Laser:" msgstr "" msgid "Export" msgstr "" msgid "Cost and energy payback calculator" msgstr "" msgid "Re-calcualte" msgstr "" msgid "material" msgstr "" msgid "Mass" msgstr "" msgid "Optical outcoupling" msgstr "" msgid "Photon distribution (norm)" msgstr "" msgid "Escape probability (1D in y)" msgstr "" msgid "Delta=Experiment - Simulation" msgstr "" msgid "Configure fit" msgstr "" msgid "Fit patch" msgstr "" msgid "Local duplicate" msgstr "" msgid "Parameter scan editor" msgstr "" msgid "Parameter to scan" msgstr "" msgid "JSON Variable 0" msgstr "" msgid "JSON Variable 1" msgstr "" msgid "" "You have not selected any parameters to scan through. Use the add button." msgstr "" msgid "" "Fast optimizer
When the fast optimizer is enabled " "simulation results are not written to disk and instead only key paramters " "are saved in a csv file. Using a spreadsheet you can then search/sort for " "the desired device parameters. This enables very fast parameter optimization " "of layer thicknesses." msgstr ""