Experimental and ab Initio Equilibrium Structure and Harmonic Force Field of 1,2,5-Oxadiazole

## Abstract The complete quartic force field of BH~3~ has been converged to the __ab initio__ limit by extrapolation of core‐valence correlation‐consistent basis set series (cc‐pCV__X__Z, __X__ = T, Q, 5) of all‐electron CCSD(T) (coupled‐cluster singles and doubles with perturbative triples) energy

The pure rotational spectrum of AsD 2 in the 2 B 1 ground electronic state was measured in the frequency region of 268 -398 GHz by microwave spectroscopy. The AsD 2 radical was generated in a free-space cell by dc-glow discharge of a gaseous mixture of D 2 and He over arsenic powder. Fifty fine and

High-level ab initio calculations with large basis sets are reported for dichloroethyne, ClCCCl. Based on CCSD(T)/cc-pVQZ results, an empirically corrected theoretical equilibrium geometry is derived: re(CC) = 1.2025(6) A and re(CCl) = 1.635(5) A. Correlated harmonic (CCSD(T)/cc-pVQZ) and anharmonic

Highly correlated ab initio calculations with large basis sets are reported for difluorovinylidene, F 2 CC. Based on CCSD(T)/aug-cc-pVQZ results and taking core correlation effects properly into account, a reliable theoretical equilibrium geometry is derived: r e (CC) ϭ 134.74(10) pm, r e (CF) ϭ 131

Highly correlated ab initio calculations with large basis sets are reported for difluoroethyne, FCCF. Based on CCSD(T)/cc-pVQZ results, a reliable theoretical equilibrium geometry is derived: r e (CC) Å 1.1860(6) A ˚and r e (CF) Å 1.2835(4) A ˚. Correlated harmonic (CCSD(T)/cc-pVQZ) and anharmonic (