2013
DOI: 10.1002/jrs.4287
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Time‐resolved femtosecond CARS from 10 to 50 Bar: collisional sensitivity

Abstract: Femtosecond time‐resolved coherent anti‐Stokes Raman scattering (CARS) measurements are performed on neat N2 and O2 as well as on N2 in the presence of various collisional partners to examine the effects of collisions on the observed signal at pressures as high as 50 bar. An exponential‐gap energy‐corrected‐sudden (ECS‐E) scaling law is used to model the rotational energy transfer of pure N2 at these elevated pressures. After accounting for line‐mixing effects, the long‐time collisional decay (20–60 picosecond… Show more

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Cited by 40 publications
(30 citation statements)
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“…(3)] to simulate the time-dependent CARS signal. 23,25,53,76 As noted in Sec. III, NR contributions to the observed CARS signal are modeled via a rapidly decaying term in the relevant third-order response function; in particular, a large decay constant (five orders of magnitude larger than the corresponding resonant molecular-transition decay constants) is assumed.…”
Section: Appendix A: Transition-intensity Frequency and Dephasing Pmentioning
confidence: 81%
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“…(3)] to simulate the time-dependent CARS signal. 23,25,53,76 As noted in Sec. III, NR contributions to the observed CARS signal are modeled via a rapidly decaying term in the relevant third-order response function; in particular, a large decay constant (five orders of magnitude larger than the corresponding resonant molecular-transition decay constants) is assumed.…”
Section: Appendix A: Transition-intensity Frequency and Dephasing Pmentioning
confidence: 81%
“…Thus, these 3-ps-delay data represent an optimal compromise that allows detection of spectra essentially free of NR background while exhibiting no collision-dependent behavior at pressures as high as 20 bars. 9,10,53 Still, the changes in spectral profiles observed in the 39-ps-and 68-ps-delay data emphasize that much of the spectral information observed within the hybrid fs/ps CARS signal is contained in the time-dependent nature of this signal. Whereas these longer delay spectra contain coarse peaks associated with the same vibrational transitions observed in the 3-ps data, a unique fine structure is observed within the spectra at each of these delays, with the 39-ps data emphasizing mid-range rotational Q-branch frequencies and the appearance of bimodal rotational structure with peaks near J ≈ 22 and J ≈ 28.…”
Section: Simulation Of Gas-phase Hybrid Fs/ps Cars Experimentsmentioning
confidence: 89%
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