B\,1+u and EF\,1+g level energies of D2

Abstract

Accurate absolute level energies of the B\,1+u, v=0-8, N and EF\,1+g, v=0-21, N rovibrational quantum states of molecular deuterium are derived by combining results from a Doppler-free two-photon laser excitation study on several lines in the EF\,1g+-X\,1g+ (0,0) band, with results from a Fourier-transform spectroscopic emission study on a low-pressure hydrogen discharge. Level energy uncertainties as low as 0.0005 cm-1 are obtained for some low-lying E\,1+g inner-well rovibrational levels, while uncertainties for higher-lying rovibrational levels and those of the F\,1+g outer-well states are nominally 0.005 cm-1. Level energies of B\,1+u rovibrational levels, for v ≤ 8 and N ≤ 10 are determined at an accuracy of 0.001 cm-1. Computed wavelengths of D2 Lyman transitions in the B\,1+u-X\,1+g (v,0) bands are also tabulated for future applications.