Table A08-m4bii1-T1 [Table copied to the <i>Treated results</i> (link type: `output to'; target: A08-m4bii1)]
Ionic-potential parameters Covalent-potential parameters
\alpha_Na^+ = 0.4083.a \alpha_Na = 273.h
\alpha_cl- = 6.4313.a \alpha_cl = 73.i
Cion = 11.3 eV6.b Ccov =1000 eV6.j
Aion = 1913.6 (2760l) eV.c Acov =3150 eV .j
rho_ion = 0.3489.d rho_cov =0.435 .j
epsilon = 3.11 + DeltaE_cov eV.e
re = 2.71143 (2.664l).f Coupling parameters
DeltaE_cov = 2.075eV.g H12 = 0.065 eV (0.0024 a.u. k)
Hrot = 3 x 10-17 (0.04 a.u. k)
a Dipole polarizability, [Value are input from another article (link type: `input from/external'; target: Rf(A08)14-m*]. b Van der Waals coefficient, from the London formula: , where I2 is the second ionization potential of Na and A is the electron affinity of I. c [Value are input from another article (link type: `input from/external'; target: Rf(A08)15-m*]. d [Value are input from another article (link type: `input from/external'; target: Rf(A08)16-m*]. e Potential well depth, [Value are input from another article (link type: `input from/external'; target: Rf(A08)17-m*]). f Internuclear equilibrium distance, [Value are input from another article (link type: `input from/external'; target: Rf(A08)18-m*)]. g From INa-AI. h [Value are input from another article (link type: `input from/external'; target: Rf(A08)19-m*)]. i Arbitrary value. j From the London formula: , where I is the first ionization potential. k Present work. l Alternative value due to overdefinition of the potential curve.