文件名称:OscarV3.15
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Descr iption
OSCAR is an optical FFT code used to calculate the steady state optical field circulating in Fabry Perot cavities. The code can integrate non-sperical mirrors and any arbitrary input fields. Recent applications for OSCAR have been: calculation of thermal lensing effect and calculation of diffraction loss and cavity eigen modes for mesa beams. One great advantage of OSCAR is the simplicity and flexibility of the code, everyone with only minimal knowledge of Matlab can easily modified OSCAR code to suit specific purposes.
MATLAB release MATLAB 7.10 (R2010a)
MATLAB Search Path
/
/OscarV3.15
/OscarV3.15/Classes
/OscarV3.15/Classes/functions
OSCAR is an optical FFT code used to calculate the steady state optical field circulating in Fabry Perot cavities. The code can integrate non-sperical mirrors and any arbitrary input fields. Recent applications for OSCAR have been: calculation of thermal lensing effect and calculation of diffraction loss and cavity eigen modes for mesa beams. One great advantage of OSCAR is the simplicity and flexibility of the code, everyone with only minimal knowledge of Matlab can easily modified OSCAR code to suit specific purposes.
MATLAB release MATLAB 7.10 (R2010a)
MATLAB Search Path
/
/OscarV3.15
/OscarV3.15/Classes
/OscarV3.15/Classes/functions
(系统自动生成,下载前可以参看下载内容)
下载文件列表
OscarV3.15\Classes\@Cavity1\Calculate_fields.m
..........\.......\........\Calculate_fields_AC.m
..........\.......\........\Calculate_fields_ACS.m
..........\.......\........\Calculate_RT_mat.m
..........\.......\........\Cavity1.m
..........\.......\........\Cavity_lock_PDH.m
..........\.......\........\Cavity_propagate_field.m
..........\.......\........\Cavity_resonance_phase.m
..........\.......\........\Cavity_scan.m
..........\.......\........\Check_matching.m
..........\.......\........\Check_stability.m
..........\.......\........\Display_cavity_modes.m
..........\.......\........\Display_results.m
..........\.......\........\Display_scan.m
..........\.......\........\Get_info.m
..........\.......\........\Get_info_AC.m
..........\.......\.......N\Calculate_fields.m
..........\.......\........\Calculate_fields_AC.m
..........\.......\........\Calculate_fields_AC_old.m
..........\.......\........\Calculate_RT_mat.m
..........\.......\........\CavityN.m
..........\.......\........\Cavity_propagate_field.m
..........\.......\........\Cavity_resonance_phase.m
..........\.......\........\Cavity_scan.m
..........\.......\........\Check_matching.m
..........\.......\........\Check_stability.m
..........\.......\........\Display_cavity_modes.m
..........\.......\........\Display_results.m
..........\.......\........\Display_scan.m
..........\.......\........\Get_info.m
..........\.......\.E_Field\Add_sidebands.m
..........\.......\........\Add_tilt.m
..........\.......\........\Calculate_Overlap.m
..........\.......\........\Calculate_power.m
..........\.......\........\Calculate_power_SB.m
..........\.......\........\Change_E_n.m
..........\.......\........\Check_Grid_size.m
..........\.......\........\Check_pos_tilt.m
..........\.......\........\Demodulate_SB.m
..........\.......\........\Expand_HOM.m
..........\.......\........\E_Field.m
..........\.......\........\E_plot.m
..........\.......\........\E_plot_SB.m
..........\.......\........\Fit_E_Field.m
..........\.......\........\Fit_TEM00.m
..........\.......\........\Fit_TEM00_xy.m
..........\.......\........\Focus_beam2.m
..........\.......\........\Focus_beam_with_telescope.m
..........\.......\........\minus.m
..........\.......\........\mtimes.m
..........\.......\........\Normalise_E.m
..........\.......\........\plus.m
..........\.......\........\Propagate_E.m
..........\.......\........\Reflect_mirror.m
..........\.......\........\Remove_00_part.m
..........\.......\........\Resample_E.m
..........\.......\........\sign.mat
..........\.......\........\Transmit_Aperture.m
..........\.......\........\Transmit_lens.m
..........\.......\........\Transmit_Reflect_Interface.m
..........\.......\........\Transmit_Reflect_Mirror.m
..........\.......\........\Transmit_Reflect_Optic.m
..........\.......\.Grid\Grid.m
..........\.......\.....\What_is_possible.m
..........\.......\.Interface\Add_astigmatism.m
..........\.......\..........\Add_map.m
..........\.......\..........\Add_tilt.m
..........\.......\..........\Cut_frequency_Interface.m
..........\.......\..........\Expand_Zernike.m
..........\.......\..........\Interface.m
..........\.......\..........\I_plot.m
..........\.......\..........\minus.m
..........\.......\..........\Plot_PSD.m
..........\.......\..........\plus.m
..........\.......\..........\Tilt_interface.m
..........\.......\..........\Weighted_RMS.m
..........\.......\..........\Weighted_RoC.m
..........\.......\.Mirror\Mirror.m
..........\.......\.......\Transmit_Reflect_Mirror.m
..........\.......\.Prop_operator\Prop_operator.m
..........\.......\..............\Refine_DI_prop.m
..........\.......\functions\find_edge_value.m
..........\.......\.........\HermitePolynomial.m
..........\.......\.........\LaguerrePolynomial.m
..........\.......\.........\LGcoefficient.m
..........\.......\.........\LoadZygoBinary.m
..........\.......\.........\Make_square.m
..........\.......\.........\ReadZygoBinary.m
..........\.......\.........\Read_mode_name.m
..........\.......\.........\Write_mode_name.m
..........\.......\.........\ZernikeCoefficient.m
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