Direct experimental investigation of the average electric field gradient at the nuclear site and the determination of the static electric quadrupole moment of the excited state of a nucleus

It is argued that the nuclear quadrupole -electric field gradi- , i, j Å x, y, z. [1] ent ( EFG ) interaction is, in principle, dependent on the presence of a magnetic field B . A rough estimate of the size of this effect yields 10 04 in fields up to 10 T. However, if the Since this potential is de

A series of hi&-level correlated calculations of the electric field gradient at the ti nucleus have been performed for LiH, LiF, and LiCl. The present results lead to a refined "molecular" value of the nuclear quadrupole moment of'Li, Q( 'Li) = -4.01 e fm' which is in excellent agreement with the mo

A set of high-resolution Stark measurements at millimeter-wave frequencies is reported for \(\mathrm{CH}_{3}{ }^{79} \mathrm{Br}\) and \(\mathrm{CH}_{3}{ }^{81} \mathrm{Br}\). These results are analyzed together with previous data available in the literature to find new sets of molecular (rotational

Ground-staterotational spectra ofthe isotopomers (CH,)9'4N...HFand (CH,),'4N...DFofthe trimethylamine-hydrogen fluoride dimer have been analysed to give spectroscopic constants, including the 14N and D nuclear quadrupole coupling constants, x0.( "'N) and x,~( D), respectively. The changes of these c