scispace - formally typeset
Search or ask a question
Topic

Inverse Raman effect

About: Inverse Raman effect is a research topic. Over the lifetime, 25 publications have been published within this topic receiving 601 citations.

Papers
More filters
Journal ArticleDOI
TL;DR: The high-resolution Raman spectra of the nu4 bands of 11B2H6 and 11B10BH6 have been recorded and analyzed and a weak Coriolis resonance with the 2nu10 level is present in the 11B 2H6 spectrum.

10 citations

Book ChapterDOI
01 Jan 1982
TL;DR: Inelastic light scattering has proved to be highly valuable for the study of elementary excitations of gases, liquids, and solids as discussed by the authors, and the parameters of the scattered radiation, e.g., frequency position, spectral band shape, degree of polarization and scattering efficiency provide detailed information on the material under consideration.
Abstract: Inelastic light scattering has proved to be highly valuable for the study of elementary excitations of gases, liquids and solids. The parameters of the scattered radiation, e.g. frequency position, spectral band shape, degree of polarization and scattering efficiency provide detailed information on the material under consideration. Using conventional light sources, i.e. working at low intensity the scattering intensity is very weak and is proportional to the intensity of the incident light beam. At elevated intensity level the situation may change significantly as already predicted in the 1930’s.[l] Nevertheless the first discovery of stimulated Raman scattering was accidental using a nitrobenzene Kerr shutter as Q-switch of a ruby laser.[2] With intense laser sources a variety of new scattering phenomena has been observed during the past years that are discussed in detail in the various chapters of this hook.[3] The present article intends to provide a basic understanding of stimulated scattering and to reveal the close relationship with spontaneous scattering, coherent scattering and inverse Raman effect.

9 citations

Book ChapterDOI
01 Jan 1982
TL;DR: The inverse Raman effect was first observed by Jones and Stoicheff as mentioned in this paper, who used it for the study of short-lived species and suggested that rotational and electronic IR effects could be observed, as well as vibrational spectra.
Abstract: Although it is the oldest form of coherent Raman spectroscopy, inverse Raman spectroscopy is less widely practiced than CARS. The inverse Raman effect was first observed by Jones and Stoicheff [1]. That pioneering paper proposed the use of the inverse Raman effect for the study of short-lived species and suggested that rotational and electronic inverse Raman effects could be observed, as well as vibrational spectra. The possible utility of inverse Raman spectroscopy as a means of observing Raman spectra over an intense fluorescence background was very clearly stated.

3 citations

Journal ArticleDOI
TL;DR: In this paper, the femtosecond pump and probe absorption spectroscopy under the virtual excitation in pseudoisocyanine J aggregates was performed, where the pump photon energy was tuned to 2.000 eV which is 173 meV lower than the J band peak, and the resonant inverse Raman type nonlinear optical spectrum was observed.

3 citations

Journal ArticleDOI
TL;DR: By using a ruby laser and a fluorescence of an organic dye excited by the secondharmonic radiation of the laser, inverse Raman spectra near the region of 3000 cm-1 Raman shift are observed for various kinds of organic liquids, benzene, cyclohexane, acetone, methyl alcohol and xylene.
Abstract: By using a ruby laser and a fluorescence of an organic dye excited by the secondharmonic radiation of the laser, inverse Raman spectra near the region of 3000 cm-1 Raman shift are observed for various kinds of organic liquids, benzene, cyclohexane, acetone, methyl alcohol and xylene. Quantitative measurements of the absorption intensity are also made by photoelectric detection. The results are in good agreement with the theory of inverse Raman effect in a wide range of the intensity of the ruby laser which we used.

3 citations

Network Information
Related Topics (5)
Raman spectroscopy
122.6K papers, 2.8M citations
80% related
Laser
353.1K papers, 4.3M citations
79% related
Plasmon
32.5K papers, 983.9K citations
79% related
Luminescence
51.2K papers, 978.5K citations
78% related
Spectroscopy
71.3K papers, 1.5M citations
77% related
Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20211
20172
20021
20001
19991
19971