Propagating molecular rotational coherences through single-frequency pulses in the strong field regime

Hernandez-Castillo, A. O.; Abeysekera, Chamara; Robicheaux, F.; Zwier, Timothy S.

doi:10.1063/1.5099049

Title: Propagating molecular rotational coherences through single-frequency pulses in the strong field regime

Journal Article · Wed Aug 28 00:00:00 EDT 2019 · Journal of Chemical Physics

DOI:https://doi.org/10.1063/1.5099049· OSTI ID:1610307

^[1]; Abeysekera, Chamara ^[2]; Robicheaux, F. ^[3];

^[3]

Purdue Univ., West Lafayette, IN (United States); Fritz-Haber-Institut der Max-Planck-Gesellschaft, Berlin (Germany)
Purdue Univ., West Lafayette, IN (United States); Intel Corporation, Hillsboro, OR (United States)
Purdue Univ., West Lafayette, IN (United States)

In the weak-field limit in which microwave spectroscopy is typically carried out, an application of a single-frequency pulse that is resonant with a molecular transition will create a coherence between the pair of states involved in the rotational transition, producing a free-induction decay (FID) that, after Fourier transform, produces a molecular signal at that same resonance frequency.With the advent of chirped-pulse Fourier transform microwave methods, the high-powered amplifiers needed to produce broadband microwave spectra also open up other experiments that probe the molecular response in the high-field regime. This paper describes a series of experiments involving resonant frequency pulses interrogating jet-cooled molecules under conditions of sufficient power to Rabi oscillate the two-state system through many Rabi cycles. The Fourier-transformed FID shows coherent signal not only at the applied resonant frequency but also at a series of transitions initially connected to the original one by sharing an upper or lower level with it. As the duration of the single-frequency excitation is increased from 250 to 1500 ns, the number of observed off-resonant,but dipole-allowed, molecular coherences grow. The phenomenon is quite general, having been demonstrated in Z-phenylvinylnitrile, E-phenylvinylnitrile (E-PVN), benzonitrile, guaiacol, and 4-pentynenitrile. In E-PVN, the highest power/longest pulse duration, coherent signal is also present at energetically nearby but not directly connected transitions. Even in molecular samples containing more than one independent species, only transitions due to the single species responsible for the original resonant transition are present. We develop a time-dependent model of the molecular/photon system and use it in conjunction with the experiment to test possible sources of the phenomenon.

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Research Organization:: Purdue Univ., West Lafayette, IN (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Basic Energy Sciences (BES); USDOE Office of Science (SC), Basic Energy Sciences (BES). Chemical Sciences, Geosciences & Biosciences Division

Grant/Contract Number:: FG02-96ER14656; SC0012193

OSTI ID:: 1610307

Alternate ID(s):: OSTI ID: 1568918; OSTI ID: 1670702

Journal Information:: Journal of Chemical Physics, Vol. 151, Issue 8; ISSN 0021-9606

Publisher:: American Institute of Physics (AIP)Copyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 1 work

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Title: Propagating molecular rotational coherences through single-frequency pulses in the strong field regime

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