Experimental and theoretical investigation of the 61Σ+u and 71Πu states of K2

The polarization labeling spectroscopy technique is used to study excited singlet ungerade states of K 2 in the energy range 26 400-30 200 cm 01 above the bottom of the ground state potential. Three states, 4-6 1 P u , are characterized by sets of Dunham coefficients. The 6 1 S / u state with an unu

Line shifts of rovibrational levels of the state of the b 'TI, state of Liz caused by rotational coupling to the a 'Xc state have been determined both theoretically and experimentally. Calculated and empirical unshifted term values of the b 'n, state are found to be in excellent agreement. The calcu

Ab initio ~.kulations are performed 10 obtiin potenti energy curves for the X lx', state of Liz and Na\_. and the >; 2~; and A 'C; Ufcs of their anions The A 'Xi 31; curves are fwund IO mtersect the X 'z~>!z curves at lo\\ ener~res and are expected to phy ;! mtljor role in the e-+ hlz -hl-+ 11 proce

The polarization labeling spectroscopy technique is used to study the 6 1 P X 1 R þ and 7 1 P X 1 R þ band systems of the NaK molecule located in the UV range. For both excited states accurate molecular constants are derived which describe the 6 1 P state to 68% and the 7 1 P state to 71% of their p