[0](a)_T_MWT (K) = surface temperature for MWT in K
[1](a/b/c)_np.log(ns_MWT) = y-values (ln(ns)) for MWT in graph a, b, c
[2](a)_x_err_MWT (K) = x-error for MWT in K in graph a
[3](a/b/c)_y_err_MWT_lower = downward y-error for MWT in graph a, b, c
[4](a/b/c)_y_err_MWT_upper = upward y-error for MWT in graph a, b, c
[5](a)_T_MAL (K) = surface temperature for MWT in K
[6](a/b/c)_np.log(ns_MAL) = y-values (ln(ns)) for MAL in graph a, b, c
[7](a)_x_err_MAL (K) = x-error for MAL in K in graph a
[8](a/b/c)_y_err_MAL_lower = downward y-error for MAL in graph a, b, c
[9](a/b/c)_y_err_MAL_upper = downward y-error for MAL in graph a, b, c
[10](b)_T_MWT (K) = lambda-shifted temperature for MWT in K in graph b
[11](b)_x_err_MWT (K) = x-error for MWT in K in graph b
[12](b)_T_MAL (K) = lambda-shifted temperature for MAL in K in graph b
[13](b)_x_err_MAL (K) = x-error for MAL in K in graph b
[14](c)_T_MWT (K) = omega-shifted temperature for MWT in K in graph c
[15](c)_x_err_MWT (K) = x-error for MWT in K in graph c
[16](c)_T_MAL (K) = omega-shifted temperature for MAL in K in graph c
[17](c)_x_err_MAL (K) = x-error for MAL in K in graph c
[18](a/b/c)_slope (1/K) = slope for .-.-.-. line in graph a, b, c
[19](a/b/c)_intercept = intercept for .-.-.-. line in graph a, b, c
[20](c)_slope (1/K) = slope for ---- line in graph c
[21](c)_intercept = intercept for ---- line in graph c
[22] Lambda = lambda value
[23] Lambda_std = std(lambda value)
[24] omega = omega value
[25] omega_std = std(omega value)