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Quantum Stimulated Raman Scattering
Communications in Theoretical Physics, 1992The quantum field theory of stimulated Raman scattering is formulated. It is shown to give the correct classical limit. However, the quantum growth rate is bigger. An additional physical process of creation of two plasmons from two photons is intrinsically predicted by the theory.
Shui-Yin Lo, Tu-Nan Ruan
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STIMULATED ELECTRONIC RAMAN SCATTERING
Applied Physics Letters, 1967Stimulated electronic Raman scattering in potassium vapor is observed. The primary source was a nitrobenzene Raman-shifted ruby laser. The secondary beam frequency occurs 58 cm−1 to the high energy side of νp.
P. P. Sorokin +4 more
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1987
This chapter describes the application of stimulated Raman scattering as a practical method for the generation of tunable, coherent radiation. A brief theoretical discussion of the stimulated Raman effect in the steady state and transient-scattering regimes is presented.
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This chapter describes the application of stimulated Raman scattering as a practical method for the generation of tunable, coherent radiation. A brief theoretical discussion of the stimulated Raman effect in the steady state and transient-scattering regimes is presented.
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Stimulated Raman Scattering Microscopy
AIP Conference Proceedings, 2010Recent advances in stimulated Raman scattering microscopy have allowed label‐free imaging of loving cells and organisms based on Raman spectroscopy with unprecedented sensitivity, offering new exciting opportunities for biology and medicine.
Sunney Xie +2 more
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Stimulated raman scattering cell
Review of Scientific Instruments, 1980Construction of an apertured Dewar cell designed for transforming the 1.06 μm Q-switched pulses of a Nd+3 glass laser by stimulated Raman scattering in liquid N2 or O2 is described. Performance data for the 1.06 μm to 1.4 μm conversion in N2 are given.
W. Hamm, J. Taboada
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1982
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.
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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.
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Stimulated resonance Raman scattering
Journal of Applied Spectroscopy, 1966A quantum mechanical theory of stimulated resonance Raman scattering taking full account of the effects of the incident and scattered radiation on the state and properties of the molecules is developed. The resulting formulas enable the amplification of the scattered radiation and the attenuation of the incident flux to be determined.
P. A. Apanasevich, D. N. Ordabaev
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Transient solitons in stimulated Raman scattering
Annual Meeting Optical Society of America, 1988The normalized equations describing transient stimulated Raman scattering are1,2where A1and A2represent the pump and Stokes waves, Xis the material excitation, ϵis its damping rate, and χ and τare normalized distance and time. One readily finds that K(τ)=|A1(χ, τ)|2+ |A2(χ, τ)|2is constant for all χ. If, in addition, I ∞ =
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Backward Stimulated Raman Scattering
Physical Review, 1969This paper describes in detail the initiation and growth of backward-traveling stimulated Raman-Stokes pulses. The radiation-transfer equations for the pulse development are derived, and a general analytic solution is given in the rate-equation approximation. Special solutions are given for a variety of pulse-initiation conditions.
M. Maier, W. Kaiser, J. A. Giordmaine
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Broadband Fourier-transform Stimulated Raman Scattering
CLEO: 2015, 2015We demonstrate a new approach to broadband stimulated Raman scattering based on time-domain-Fourier-transform detection of the stimulated Raman gain. Our method blends the sensitivity of single-channel lock-in detection with the spectral resolution of Fourier-transform spectroscopy.
RÉHAULT, JULIEN EMIL ANDRE +5 more
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