2006
DOI: 10.1016/j.cplett.2006.06.004
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Interaction of a supersonic NO beam with a static and a resonant RF field: Measurement of rotationally resolved dipole moments

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Cited by 6 publications
(4 citation statements)
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“…The NO + Ar long-range interaction potential can be described by the dipole–induced dipole model potential given by V int = prefix− μ NO 2 · α Ar R 6 where μ NO , α Ar , and R stand for the NO permanent dipole moment, the Argon atomic polarizability, and the interparticle distance, respectively. Using the literature values for μ NO = 0.158 D and α Ar = 1.63 Å, eq predicts that a NO molecule will “feel” an interaction potential of 12.2 kHz when the Ar approaches exactly at a distance of R d = 28.03 Å 2 .…”
Section: Resultsmentioning
confidence: 99%
“…The NO + Ar long-range interaction potential can be described by the dipole–induced dipole model potential given by V int = prefix− μ NO 2 · α Ar R 6 where μ NO , α Ar , and R stand for the NO permanent dipole moment, the Argon atomic polarizability, and the interparticle distance, respectively. Using the literature values for μ NO = 0.158 D and α Ar = 1.63 Å, eq predicts that a NO molecule will “feel” an interaction potential of 12.2 kHz when the Ar approaches exactly at a distance of R d = 28.03 Å 2 .…”
Section: Resultsmentioning
confidence: 99%
“…The interaction of a beam of polar molecules with oscillating rf electric fields is a subject currently investigated by our group using different experimental methodologies. Thus depletion spectra of molecular beams were reported when NO molecules interact with static and resonant rf fields. Later on, beam splitting of ±0.2° toward both positive and negative directions perpendicular to the beam propagation axis of a supersonic NO beam seeded in He was reported as a result of its resonant interaction with an rf electric field. More recently, the observed beam depletion and splitting were rationalized, from a theoretical point of view, using a quantum interference model that seems to capture the main physics behind all reported observations.…”
Section: Introductionmentioning
confidence: 99%
“…The interaction of polar molecules with resonant RF electric fields is a subject currently investigated by our group using different experimental methodologies. Thus, depletion spectra of molecular beams have been reported when such polar molecules interact with static and resonant RF fields. More recently, beam splitting of 1.5 mm toward both the positive and negative direction perpendicular to the beam propagation axis of a supersonic toluene beam seeded in He was reported as a result of its resonant interaction with a RF electric field. The observed toluene beam splitting could be explained by the onset of molecular interferences induced by the resonant RF field…”
Section: Introductionmentioning
confidence: 99%