rho1 100[mm] "Radius of curvature of mirror 1"
rho2 100[mm] "Radius of curvature of mirror 2"
l_cav 50[mm] "Cavity length"
g1 1-l_cav/rho1 "Stability parameter 1"
g2 1-l_cav/rho2 "Stability parameter 2"
w0 sqrt(l_cav*lda0/pi)*(g1*g2*(1-g1*g2)/((g1+g2-2*g1*g2)^2))^(1/4) "Beam waist radius"
w1 sqrt(l_cav*lda0/pi)*(g2/(g1*(1-g1*g2)))^(1/4) "Beam radius on left mirror"
w2 sqrt(l_cav*lda0/pi)*(g1/(g2*(1-g1*g2)))^(1/4) "Beam radius on right mirror"
FSR c_const/(2*l_cav) "Free spectral range"
F pi*(R*R)^(1/4)/(1-sqrt(R*R)) Finesse
R abs((sqrt(Rl)-exp(2*i*phi)*sqrt(Rr))/(1-exp(2*i*phi)*sqrt(Rl*Rr)))^2 "Reflectance of mirror layer"
phi 2*pi*d*n/(lda0) "Phase delay through mirror layer"
d lda0/100 "Mirror layer thickness"
n 15 "Refractive Index of mirror layer"
n1 1 "Refractive index in front of mirror layer"
n2 1 "Refractive index behind mirror layer"
r1 (n1-n)/(n1+n) "Reflectivity of first mirror layer interface"
r2 (n-n2)/(n+n2) "Reflectivity of second mirror layer interface"
Rl r1^2 "Reflectance of first layer mirror interface"
Rr r2^2 "Reflectance of second layer mirror interface"
df FSR/F "Frequency width"