OH hyperfine ground state: from precision measurement to molecular qubits
arXiv:physics/0608194 · doi:10.1103/PhysRevA.74.061402
Abstract
We perform precision microwave spectroscopy--aided by Stark deceleration--to reveal the low magnetic field behavior of OH in its ^2Î _{3/2} ro-vibronic ground state, identifying two field-insensitive hyperfine transitions suitable as qubits and determining a differential Lande g-factor of 1.267(5)\times10^{-3} between opposite parity components of the Î-doublet. The data are successfully modeled with an effective hyperfine Zeeman Hamiltonian, which we use to make a tenfold improvement of the magnetically sensitive, astrophysically important ÎF=\pm1 satellite-line frequencies, yielding 1720529887(10) Hz and 1612230825(15) Hz.
4+ pages, 3 figures