AlF spectroscopy database

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Information about the spectroscopic constants

Spectroscopic constant	Unit	Description
Te	cm\(^{-1}\)	Minimum of the electronic potential
omega_e	cm\(^{-1}\)	Harmonic (fundamental) vibrational frequency
omega_ex_e	cm\(^{-1}\)	First-order anharmonic vibrational frequency
omega_ey_e	cm\(^{-1}\)	Second-order anharmonic vibrational frequency
omega_ez_e	cm\(^{-1}\)	Third-order anharmonic vibrational frequency
R_e	Å	Equilibrium internuclear distance
IP	eV	Ionization potential
D_0	eV	Dissociation energy
B_e	cm\(^{-1}\)	Equilibrium rotational constant
B_v	cm\(^{-1}\)	Rotational constant at certain vibronic state v. \(B_v = B_e - \alpha_e (v + 1/2) + \beta_e (v + 1/2)^2 \)
alpha_e	cm\(^{-1}\)	Vibrational dependence parameter for \(B_v\)
beta_e	cm\(^{-1}\)	Vibrational dependence parameter for \(B_v\)
A_e	cm\(^{-1}\)	Equilibrium spin-orbit interaction parameter
A_v	cm\(^{-1}\)	Spin-orbit interaction parameter at certain vibronic state v. \(A_v = A_e - \zeta_e (v + 1/2) + \eta_e (v + 1/2) ^2\)
zeta_e	cm\(^{-1}\)	Vibrational dependence parameter for \(A_v\)
eta_e	cm\(^{-1}\)	Vibrational dependence parameter for \(A_v\)
gamma_e	cm\(^{-1}\)	Equilibrium spin-rotation interaction parameter
gamma_v	cm\(^{-1}\)	Spin-rotation interaction parameter at certain vibrational state v
LambdaSS_e	cm\(^{-1}\)	Equilibrium spin-spin interaction parameter
LambdaSS_v	cm\(^{-1}\)	Spin-spin interaction parameter at certain vibrational state v
o_v	cm\(^{-1}\)	Gamma-type doubling constants at certain vibrational state v
p_v	cm\(^{-1}\)	Gamma-type doubling constants at certain vibrational state v
q_v	cm\(^{-1}\)	Gamma-type doubling constants at certain vibrational state v
D_e	cm\(^{-1}*10^{-7}\)	Equilibrium centrifugal distortion constant
v	None	Vibrational state
origin	cm\(^{-1}\)	Origin to the energy levels at certain vibrational state. \(E(Origin) = E_{vib}(v) = T_e + E(v) = T_e + \omega_e ( v + 1/2) - \omega_ex_e (v + 1/2) ^ 2 + \omega_ey_e (v + 1/2) ^ 3 + \omega_ez_e (v + 1/2) ^ 4\)