Hybrid potentials for the 1Σg+ state of Mg2

With the spectroscopic constants and RKR procedure, the electronic potential for the ground state of the H2 molecule has been calculated. With the effective potential without rotation we calculate the potential with rotation, for J= 1, 2, 3, 4, 5, 10, 15, 20 and 25. Numerical integration of the radi

Fluorescence excited in the A 1 ]~-X 1 ]~ system of Na 2 by a ring dye laser gives information about levels up to v = 62 in X 1 ~ some 5 cm -1 from the dissociation limit. Ultraviolet lines of Kr III (and Ar III) lasers excite C 1 rlu, (2) 1Nu-(1) 1Hg fluorescence in the infrared which aUows the pos

Alklcctron CVB/Cl potenrlsl curves haw been obtamcd for the X 1 r; SIPIC ol Cs2 usmg L large gsussix~ basis set. Cor- rclatlon oi the 5s. 5p ulcc~rons 1s found to Icad ro a sgntiicannt bond shonenmg eiicct. The calculxcd R, and Dc arc III WIsonablc agrccmcnt wh c~pciimcnt of the R, IS conccted ior t

Laser-induced fluokcence of Csz molecuks. recorded by high-rescktian Fourier spectroscopy, has been used for the fist spectroscopic identification of the lowest gerade triplet (1) '2: electronic state. This state can be described by tbe molecular parameters: -T, = 11602.10 cm-?, B, = 8.23 X 10m3 cm-