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This article is cited in 8 scientific papers (total in 8 papers)
Laser applications and other topics in quantum electronics
Laser Doppler visualisation of the velocity field by excluding the influence of multiparticle scattering
Yu. N. Dubnishcheva, Yu. V. Chuguib, J. Kompenhansc a Institute of Thermophysics, Siberian Branch of the Russian Academy of Science, Novosibirsk
b Technological Design Institute of Scientific Instrument Engineering, Siberian Branch RAS, Novosibirsk
c German Aerospace Centre, Göttingen, Germany
Abstract:
The method of laser Doppler visualisation and measurement of the velocity field in gas and liquid flows by suppressing the influence of multiparticle scattering is discussed. The cross section of the flow under study is illuminated by a laser beam transformed by an anamorphic optical system into a laser sheet. The effect of multiparticle scattering is eliminated by obtaining differential combinations of frequency-demodulated images of the laser sheet in different regions of the angular spectrum of scattered light.
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Quantum Electronics, 2009, 39:10, 962–966
Bibliographic databases:
PACS:
42.62.Cf, 42.25.Fx, 47.80.Cb, 47.80.Jk Received: 26.01.2009 Revised: 05.05.2009
Citation:
Yu. N. Dubnishchev, Yu. V. Chugui, J. Kompenhans, “Laser Doppler visualisation of the velocity field by excluding the influence of multiparticle scattering”, Kvantovaya Elektronika, 39:10 (2009), 962–966 [Quantum Electron., 39:10 (2009), 962–966]
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http://mi.mathnet.ru/eng/qe14054 http://mi.mathnet.ru/eng/qe/v39/i10/p962
Citing articles on Google Scholar:
Russian citations,
English citations
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Russian articles,
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This publication is cited in the following articles:
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Quantum Electron., 40:6 (2010), 551–555
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Dubnishchev Yu.N., Chugui Yu.V., Kompenhans J., Measurement Technology and Intelligent Instruments Ix, Key Engineering Materials, 437, eds. Chugui Y., Gao Y., Fan K., Taymanov R., Sapozhnikova K., Trans Tech Publications Ltd, 2010, 247–252
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Fischer A., Haufe D., Buettner L., Czarske J., Appl. Optics, 50:21 (2011), 4068–4082
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Quantum Electron., 41:3 (2011), 278–282
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Andreas Fischer, Jörg König, Jürgen Czarske, Clemens Rakenius, Gregor Schmid, Heinz-Peter Schiffer, Exp Fluids, 54:2 (2013)
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V. A. Arbuzov, Yu. N. Dubnishchev, V. G. Nechaev, O. N. Novoselova, D. S. Pechkin, Optoelectron.Instrument.Proc, 49:6 (2013), 615
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Dubnishchev Yu.N., Sotnikov V.V., Arbuzov V.A., Arbuzov E.V., Shibaev A.A., Optoelectron. Instrum. Data Proc., 52:6 (2016), 601–608
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V. A. Ermolaev, Yu. A. Kropotov, A. Yu. Proskuryakov, Kompyuternaya optika, 44:3 (2020), 454–465
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