n1_s sqrt((n0*sin(alphaInc))^2+n0*np*cos(alphaInc)*cos(alphaTrPrism)) "Anti-reflection coating 1 refractive index, s-polarization"
n2_s sqrt((np*sin(alphaIncPrism))^2+np*n0*cos(alphaIncPrism)*cos(alphaTr)) "Anti-reflection coating 2 refractive index, s-polarization"
theta1_s asin((1/n1_s)*sin(alphaInc)) "Transmission angle in anti-reflection coating 1, s-polarized wave"
theta2_s asin((n2_s/1)*sin(alphaIncPrism)) "Transmission angle in anti-reflection coating 2, s-polarized wave"
d1_s lda0/(4*n1_s*cos(theta1_s)) "Anti-reflection coating1 layer thickness, s-polarization"
d2_s lda0/(4*n2_s*cos(theta2_s)) "Anti-reflection coating 2 layer thickness, s-polarization"
n1_p sqrt(n0*np/(2*cos(alphaInc)*cos(alphaTrPrism)))*sqrt(1+sqrt(1-4*n0*cos(alphaInc)*cos(alphaTrPrism)*sin(alphaInc)*sin(alphaInc)/np)) "Anti-reflection coating 1 refractive index, p-polarization"
n2_p sqrt(np*n0/(2*cos(alphaIncPrism)*cos(alphaTr)))*sqrt(1+sqrt(1-4*np*cos(alphaIncPrism)*cos(alphaTr)*sin(alphaIncPrism)*sin(alphaIncPrism)/n0)) "Anti-reflection coating 2 refractive index, p-polarization"
theta1_p asin((1/n1_p)*sin(alphaInc)) "Transmission angle in anti-reflection coating 1, p-polarized wave"
theta2_p asin((n2_p/1)*sin(alphaIncPrism)) "Transmission angle in anti-reflection coating 2, p-polarized wave"
d1_p lda0/(4*n1_p*cos(theta1_p)) "Anti-reflection coating 1 layer thickness, p-polarization"
d2_p lda0/(4*n2_p*cos(theta2_p)) "Anti-reflection coating 2 layer thickness, p-polarization"