List of Tables

Table 1:
Physical constants used in this paper
Table 2:
Thermal lensing from coating and bulk absorption (abs.)
Table 3:
Thermal lensing curvature radii (Rc) for LG modes having 1 ppm clipping losses, and associated coupling losses (L) in the weak power approximation [Equation (3.83View Equation)] (mirror diameter: 35 cm)
Table 4:
Curvature radii from thermal expansion due to coating absorption for modes having 1 ppm clipping losses
Table 5:
Curvature radii from thermal expansion due to bulk absorption for modes having 1 ppm clipping losses
Table 6:
Thermal aberrations from coating and bulk absorption
Table 7:
Zernike coefficients cn for LG00 w = 2 cm
Table 8:
Zernike coefficients cn for LG55 w = 3.5 cm
Table 9:
Zernike coefficients cn for the mesa mode
Table 10:
Thermal compensation with a heating ring: LG0,0 mode of w = 2 cm.
Table 11:
Thermal compensation with a heating ring: LG5,5 mode of w = 3.5 cm.
Table 12:
Thermal compensation with an axicon system
Table 13:
Thermal compensation with a scanning CO2 beam for LG00 mode (w = 2 cm)
Table 14:
Zernike coefficients for three TCS systems compensating LG00 mode (w = 2 cm)
Table 15:
Some numerical values of g0,n,m
Table 16:
Some numerical values of g1,n,m
Table 17:
Comparison infinite/finite mirror Strain Energy (SE)
Table 18:
Some numerical values of g2,n,m
Table 19:
Some numerical values of g3,n,m
Table 20:
Some values of ϖn