Description: OSCAR is an optical FFT code used to calculate the steady state optical
�eld circulating in Fabry Perot cavities. The code can integrate non-sperical
mirrors and any arbitrary input �elds. Recent applications for OSCAR have
been: calculation of thermal lensing e�ect and calculation of di�raction loss
and cavity eigen modes for mesa beams. One great advantage of OSCAR is
the simplicity and
exibility of the code, everyone with only minimal knowl-
edge of Matlab can easily modi�ed OSCAR code to suit spec�c purposes.
To Search:
File list (Check if you may need any files):
OscarV3.14\carte1pouce_fit.mat
..........\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.asv
..........\.......\........\Display_cavity_modes.m
..........\.......\........\Display_results.m
..........\.......\........\Display_scan.m
..........\.......\........\Get_info.m
..........\.......\........\Get_info_AC.m
..........\.......\.......N\Calculate_fields.m
..........\.......\........\Calculate_fields_AC.asv
..........\.......\........\Calculate_fields_AC.m
..........\.......\........\Calculate_fields_AC_old.m
..........\.......\........\Calculate_RT_mat.asv
..........\.......\........\Calculate_RT_mat.m
..........\.......\........\CavityN.m
..........\.......\........\Cavity_propagate_field.m
..........\.......\........\Cavity_resonance_phase.asv
..........\.......\........\Cavity_resonance_phase.m
..........\.......\........\Cavity_scan.m
..........\.......\........\Check_matching.m
..........\.......\........\Display_cavity_modes.asv
..........\.......\........\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
..........\.......\........\Focus_beam2.m
..........\.......\........\Focus_beam_with_telescope.m
..........\.......\........\minus.m
..........\.......\........\mtimes.m
..........\.......\........\Normalise_E.m
..........\.......\........\plus.m
..........\.......\........\Propagate_E.m
..........\.......\........\Reflect_mirror.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
..........\.......\..........\Fit_weighted_RoC.m
..........\.......\..........\Interface.m
..........\.......\..........\I_plot.asv
..........\.......\..........\I_plot.m
..........\.......\..........\minus.m
..........\.......\..........\Plot_PSD.m
..........\.......\..........\plus.m
..........\.......\..........\Weighted_RMS.m
..........\.......\.Mirror\Mirror.m
..........\.......\.......\Transmit_Reflect_Mirror.m
..........\.......\.Prop_operator\Prop_operator.m
..........\.......\..............\Refine_DI_prop.m
..........\.......\functions\HermitePolynomial.m
..........\.......\.........\LaguerrePolynomial.m
..........\.......\.........\LGcoefficient.m
..........\.......\.........\LoadZygoBinary.m
..........\.......\.........\ReadZygoBinary.m
..........\.......\.........\Read_mode_name.m
..........\.......\.........\Write_mode_name.m
..........\Example_4mirrors.asv
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