The (Ka=0→1) submillimeter rotation-tunneling spectrum of the water dimer

By direct absorption of submillimeter radiation in a planar supersonic jet, we have measured K,= 1 +K,= 2 transitions of the fully deuterated water dimer (Da)\* in the region between 350 and 430 GHz Several previously unknown constants have been derived. The A-rotational constant is determined as 12

Approximate K ϭ 0 and ͉K͉ ϭ 1 tunneling-rotation eigenfunctions for the four A, four E, and one G symmetry species present in the methanol dimer, derived from molecular parameters obtained previously from a least-squares fit to transition frequencies involving K ϭ 0 and 1 levels, are used to clarify

High-resolution sub-Doppler Lamb-dip measurements were performed on the low-J pure rotational transitions of the hydrogen chloride isotopomers H 35 Cl, H 37 Cl, D 35 Cl, and D 37 Cl in the submillimeter-wave region up to 646 GHz. For the J Å 1 -0 transitions of the two HCl isotopomers, the hyperfine

The rotational spectrum of (CH 3 OH) 2 has been observed in the 8 to 24 GHz region with a pulsed-beam Fabry-Perot cavity Fourier-transform microwave spectrometer. Previously we demonstrated that each transition of the a-type R( J), K a Å 0 is split into 15 states of the 16 theoretically expected sta