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Raman mass-spectrometry via oscillatory motion in deep pulsed optical lattices

We describe a new optical diagnostic for determining the composition of gases by measuring the motion of atoms and molecules trapped within very deep optical lattices. This non-resonant method is analogous to conventional Raman scattering, except that the observed spectral features relate to the oscillatory center-of-mass motion of each species within the lattice, determined uniquely by their respective polarizability-to-mass ratio. Depending on the density of the probed sample, detection occurs either via optical scattering at the high end or via non-resonant ionization at the lower end. We show that such a technique is complementary to conventional mass spectrometry techniques and envision its implementation in existing instruments.

preprint2022arXivOpen access
A. GerakisM. N. ShneiderP. F. Barker
physics.ins-detphysics.app-phphysics.optics
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A. GerakisM. N. ShneiderP. F. Barker

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