TIME EVOLUTION of KELVIN-HELMHOLTZ VORTICES ASSOCIATED with COLLISIONLESS SHOCKS in LASER-PRODUCED PLASMAS

Y. Kuramitsu; A. Mizuta; Y. Sakawa; H. Tanji; T. Ide; T. Sano; M. Koenig; A. Ravasio; A. Pelka; H. Takabe; C. D. Gregory; N. Woolsey; T. Moritaka; S. Matsukiyo; Y. Matsumoto; N. Ohnishi

doi:10.3847/0004-637X/828/2/93

TIME EVOLUTION of KELVIN-HELMHOLTZ VORTICES ASSOCIATED with COLLISIONLESS SHOCKS in LASER-PRODUCED PLASMAS

Y. Kuramitsu, A. Mizuta, Y. Sakawa, H. Tanji, T. Ide, T. Sano, M. Koenig, A. Ravasio, A. Pelka, H. Takabe, C. D. Gregory, N. Woolsey, T. Moritaka, S. Matsukiyo, Y. Matsumoto, N. Ohnishi

ENG - Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

We report experimental results on Kelvin-Helmholtz (KH) instability and resultant vortices in laser-produced plasmas. By irradiating a double plane target with a laser beam, asymmetric counterstreaming plasmas are created. The interaction of the plasmas with different velocities and densities results in the formation of asymmetric shocks, where the shear flow exists along the contact surface and the KH instability is excited. We observe the spatial and temporal evolution of plasmas and shocks with time-resolved diagnostics over several shots. Our results clearly show the evolution of transverse fluctuations, wavelike structures, and circular features, which are interpreted as the KH instability and resultant vortices. The relevant numerical simulations demonstrate the time evolution of KH vortices and show qualitative agreement with experimental results. Shocks, and thus the contact surfaces, are ubiquitous in the universe; our experimental results show general consequences where two plasmas interact.

Original language	English
Article number	93
Journal	Astrophysical Journal
Volume	828
Issue number	2
DOIs	https://doi.org/10.3847/0004-637X/828/2/93
Publication status	Published - 2016 Sept 10

Keywords

hydrodynamics
instabilities
plasmas
shock waves
turbulence
waves

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/0004-637X/828/2/93

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Kuramitsu, Y., Mizuta, A., Sakawa, Y., Tanji, H., Ide, T., Sano, T., Koenig, M., Ravasio, A., Pelka, A., Takabe, H., Gregory, C. D., Woolsey, N., Moritaka, T., Matsukiyo, S., Matsumoto, Y., & Ohnishi, N. (2016). TIME EVOLUTION of KELVIN-HELMHOLTZ VORTICES ASSOCIATED with COLLISIONLESS SHOCKS in LASER-PRODUCED PLASMAS. Astrophysical Journal, 828(2), [93]. https://doi.org/10.3847/0004-637X/828/2/93

Kuramitsu, Y, Mizuta, A, Sakawa, Y, Tanji, H, Ide, T, Sano, T, Koenig, M, Ravasio, A, Pelka, A, Takabe, H, Gregory, CD, Woolsey, N, Moritaka, T, Matsukiyo, S, Matsumoto, Y & Ohnishi, N 2016, 'TIME EVOLUTION of KELVIN-HELMHOLTZ VORTICES ASSOCIATED with COLLISIONLESS SHOCKS in LASER-PRODUCED PLASMAS', Astrophysical Journal, vol. 828, no. 2, 93. https://doi.org/10.3847/0004-637X/828/2/93

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title = "TIME EVOLUTION of KELVIN-HELMHOLTZ VORTICES ASSOCIATED with COLLISIONLESS SHOCKS in LASER-PRODUCED PLASMAS",

abstract = "We report experimental results on Kelvin-Helmholtz (KH) instability and resultant vortices in laser-produced plasmas. By irradiating a double plane target with a laser beam, asymmetric counterstreaming plasmas are created. The interaction of the plasmas with different velocities and densities results in the formation of asymmetric shocks, where the shear flow exists along the contact surface and the KH instability is excited. We observe the spatial and temporal evolution of plasmas and shocks with time-resolved diagnostics over several shots. Our results clearly show the evolution of transverse fluctuations, wavelike structures, and circular features, which are interpreted as the KH instability and resultant vortices. The relevant numerical simulations demonstrate the time evolution of KH vortices and show qualitative agreement with experimental results. Shocks, and thus the contact surfaces, are ubiquitous in the universe; our experimental results show general consequences where two plasmas interact.",

keywords = "hydrodynamics, instabilities, plasmas, shock waves, turbulence, waves",

author = "Y. Kuramitsu and A. Mizuta and Y. Sakawa and H. Tanji and T. Ide and T. Sano and M. Koenig and A. Ravasio and A. Pelka and H. Takabe and Gregory, {C. D.} and N. Woolsey and T. Moritaka and S. Matsukiyo and Y. Matsumoto and N. Ohnishi",

note = "Funding Information: This work was supported by JSPS KAKENHI Grant Numbers 24740369, 21340172, and 15K17670; a grant for the Core-to-Core Program from JSPS; by the Asian Core Program for High Energy Density Science Using Intense Laser Photons commissioned by JSPS; and by the Ministry of Science and Technology, Taiwan, under Grant No. MOST-103-2112-M- 008-001-MY2 and MOST 104-2911-I-008-504. Publisher Copyright: {\textcopyright} 2016. The American Astronomical Society. All rights reserved.",

year = "2016",

month = sep,

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doi = "10.3847/0004-637X/828/2/93",

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T1 - TIME EVOLUTION of KELVIN-HELMHOLTZ VORTICES ASSOCIATED with COLLISIONLESS SHOCKS in LASER-PRODUCED PLASMAS

AU - Kuramitsu, Y.

AU - Mizuta, A.

AU - Sakawa, Y.

AU - Tanji, H.

AU - Ide, T.

AU - Sano, T.

AU - Koenig, M.

AU - Ravasio, A.

AU - Pelka, A.

AU - Takabe, H.

AU - Gregory, C. D.

AU - Woolsey, N.

AU - Moritaka, T.

AU - Matsukiyo, S.

AU - Matsumoto, Y.

AU - Ohnishi, N.

N1 - Funding Information: This work was supported by JSPS KAKENHI Grant Numbers 24740369, 21340172, and 15K17670; a grant for the Core-to-Core Program from JSPS; by the Asian Core Program for High Energy Density Science Using Intense Laser Photons commissioned by JSPS; and by the Ministry of Science and Technology, Taiwan, under Grant No. MOST-103-2112-M- 008-001-MY2 and MOST 104-2911-I-008-504. Publisher Copyright: © 2016. The American Astronomical Society. All rights reserved.

PY - 2016/9/10

Y1 - 2016/9/10

N2 - We report experimental results on Kelvin-Helmholtz (KH) instability and resultant vortices in laser-produced plasmas. By irradiating a double plane target with a laser beam, asymmetric counterstreaming plasmas are created. The interaction of the plasmas with different velocities and densities results in the formation of asymmetric shocks, where the shear flow exists along the contact surface and the KH instability is excited. We observe the spatial and temporal evolution of plasmas and shocks with time-resolved diagnostics over several shots. Our results clearly show the evolution of transverse fluctuations, wavelike structures, and circular features, which are interpreted as the KH instability and resultant vortices. The relevant numerical simulations demonstrate the time evolution of KH vortices and show qualitative agreement with experimental results. Shocks, and thus the contact surfaces, are ubiquitous in the universe; our experimental results show general consequences where two plasmas interact.

AB - We report experimental results on Kelvin-Helmholtz (KH) instability and resultant vortices in laser-produced plasmas. By irradiating a double plane target with a laser beam, asymmetric counterstreaming plasmas are created. The interaction of the plasmas with different velocities and densities results in the formation of asymmetric shocks, where the shear flow exists along the contact surface and the KH instability is excited. We observe the spatial and temporal evolution of plasmas and shocks with time-resolved diagnostics over several shots. Our results clearly show the evolution of transverse fluctuations, wavelike structures, and circular features, which are interpreted as the KH instability and resultant vortices. The relevant numerical simulations demonstrate the time evolution of KH vortices and show qualitative agreement with experimental results. Shocks, and thus the contact surfaces, are ubiquitous in the universe; our experimental results show general consequences where two plasmas interact.

KW - hydrodynamics

KW - instabilities

KW - plasmas

KW - shock waves

KW - turbulence

KW - waves

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VL - 828

JO - Astrophysical Journal

JF - Astrophysical Journal

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ER -

TIME EVOLUTION of KELVIN-HELMHOLTZ VORTICES ASSOCIATED with COLLISIONLESS SHOCKS in LASER-PRODUCED PLASMAS

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Keywords

ASJC Scopus subject areas

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