Measurement of the Electric Dipole Moment of AlCl by Stark Level Spectroscopy
Abstract
We report the measurement of the electric dipole moment of aluminum monochloride (AlCl) using a cryogenic buffer-gas beam source. Using Stark shift spectroscopy, we derive values for the dipole moments in the body-fixed frame of the two lowest vibrational states for the X1+ electronic state, μX(v''=0) = -1.679 D and μX(v'' = 1) = -1.761 D, and for the A1 state, μA(v' = 0) = -1.030 D and μA(v' = 1) = -1.052 D. We also show that the ab initio calculations of the dipole moment and Te energy of AlCl are sensitive to the level of treatment of the spin-orbit orbit coupling. We further lay out the implications of these results for astrophysical models of stellar and planetary evolution that have used a substitute value for the dipole moment of AlCl until now.
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