MISTWizardFile1.0RCW_BRDF_Modelpi 4*atan(1)degpi/180thetai70Incident Angle in degreesinpol450 for s, 90 for pperiod1Period of the grating wavelength0.532!Wavelength of the light in vacuumgrating_rotation0$Rotation angle of grating in degreesn-1Diffraction orderk.x7sind(thetai)+n*wavelength/period*cosd(grating_rotation)Diffraction equation for xk.y*n*wavelength/period*sind(grating_rotation)Diffraction equation for ythetasasind(sqrt(k.x^2+k.y^2))Polar angle of diffractionphisatan2d(k.y,k.x)Azimuthal angle of diffraction minsamples1 differential (2*deg)^2 incidentangle thetai*deg incidentpol'(1,cos(2*inpol*deg),sin(2*inpol*deg),0)rotationgrating_rotation*deglambda wavelength substrate (4.05,0.05)type0alpha1*degorder10gratingSingle_Line_Gratinggrating.periodperiodgrating.medium_i(1,0)grating.medium_t (4.05,0.05)grating.material (4.05,0.05) grating.space(1,0)grating.height0.2grating.topwidth0.2grating.bottomwidth0.2grating.offset0grating.nlevels10thetai1891DI$%wIPI thetas*degphis*deg incidentpol(1,0,0,0); Unpolarized#Polarization sensitivity: (1,0,0,0)DI$%wIPQ thetas*degphis*deg incidentpol (0,1,0,0)#Polarization sensitivity: (0,1,0,0)DI$%wIPU thetas*degphis*deg incidentpol (0,0,1,0)#Polarization sensitivity: (0,0,1,0)DI$%wIPV thetas*degphis*deg incidentpol (0,0,0,1)#Polarization sensitivity: (0,0,0,1) RI=I*pi*alpha^2 RQ=Q*pi*alpha^2 RU=U*pi*alpha^2 RV=V*pi*alpha^2 results listingMoreData