1996
DOI: 10.1021/jp961039m
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System−Bath Correlation Function Probed by Conventional and Time-Gated Stimulated Photon Echo

Abstract: We show how in the framework of the multimode Brownian oscillator model the system-bath correlation function can be derived from conventional and time-gated stimulated photon echo experiments and consideration of the linear optical spectra. Experiments are performed on the infrared dye DTTCI in room temperature solutions of ethylene glycol, methanol, and acetonitrile. The obtained correlation function is the sum of several Brownian oscillators, of which four are attributed to intrachromophore vibrational dynam… Show more

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Cited by 225 publications
(317 citation statements)
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“…83,[85][86][87] Our previous experiments on dyes, however, showed this generally not to be the case. 8 Figure 4 shows that the spectral content of C(ω) agrees rather favorably with the unpolarized Raman spectrum of the highest frequency librational band of neat water 84,88,89 (note that the Raman spectrum of water in Figure 4 is multiplied by ω to allow a direct comparison with the spectral density 91 ). We note that a librational mode of similar frequency was found in model calculations on solvation dynamics in water by Hsu et al 12 We also note that the exponential part of our correlation function is identical to the one reported by Schwartz and Rossky.…”
Section: M′′(t)mentioning
confidence: 70%
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“…83,[85][86][87] Our previous experiments on dyes, however, showed this generally not to be the case. 8 Figure 4 shows that the spectral content of C(ω) agrees rather favorably with the unpolarized Raman spectrum of the highest frequency librational band of neat water 84,88,89 (note that the Raman spectrum of water in Figure 4 is multiplied by ω to allow a direct comparison with the spectral density 91 ). We note that a librational mode of similar frequency was found in model calculations on solvation dynamics in water by Hsu et al 12 We also note that the exponential part of our correlation function is identical to the one reported by Schwartz and Rossky.…”
Section: M′′(t)mentioning
confidence: 70%
“…In this model the Stokes shift (the gap between the first moments of emission and absorption) of the electronic transition is 2λ, provided that the excited-state lifetime is large compared to the solvation time. 8 This condition might not be fulfilled for the hydrated electron because of its extremely short excited-state lifetime. The calculations are rigorously carried out taking all possible time orderings and the finite pulse duration into account.…”
Section: Model Calculations For the Pump-probementioning
confidence: 99%
“…The Fleming and Wiersma groups have argued that one measurement, the photon echo peak shift (PEPS), strongly reflects the correlation function M(t). 4,5 A PEPS measurement involves taking a series of photon echo measurements for different fixed values of T 23 . Each photon echo measurement has a signal maximum at a particular value of T 12 .…”
Section: Physical Meaning Of the Photon Echo Peak Shiftmentioning
confidence: 99%
“…This has already been shown for certain carbocyanine dye molecules. 4,5 In this paper, we test this assumption for bacteriochloropyll a . …”
Section: Physical Meaning Of the Photon Echo Peak Shiftmentioning
confidence: 99%
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