We propose a new mechanism of high-order harmonic generation during an interaction of a high-intensity laser pulse with underdense plasma. A tightly focused laser pulse creates a cavity in plasma pushing electrons aside and exciting the wake wave and the bow wave. At the joint of the cavity wall and the bow wave boundary, an annular spike of electron density is formed. This spike surrounds the cavity and moves together with the laser pulse. Collective motion of electrons in the spike driven by the laser field generates high-order harmonics. A strong localization of the electron spike, its robustness to oscillations imposed by the laser field and, consequently, its ability to produce high-order harmonics is explained by catastrophe theory. The proposed mechanism explains the experimental observations of high-order harmonics with the 9 TW J-KAREN laser (JAEA, Japan) and the 120 TW Astra Gemini laser (CLF RAL, UK) [A. S. Pirozhkov, et al., arXiv:1004.4514 (2010); A. S. Pirozhkov et al, AIP Proceedings, this volume]. The theory is corroborated by high-resolution two-and three-dimensional particle-in-cell simulations.
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11 July 2012
LASER-DRIVEN RELATIVISTIC PLASMAS APPLIED TO SCIENCE, ENERGY, INDUSTRY, AND MEDICINE: The 3rd International Symposium
30 May–2 June 2011
Kyoto, Japan
Research Article|
July 11 2012
High-order harmonics from bow wave caustics driven by a high-intensity laser
T. Zh. Esirkepov;
T. Zh. Esirkepov
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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A. S. Pirozhkov;
A. S. Pirozhkov
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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M. Kando;
M. Kando
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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P. Gallegos;
P. Gallegos
Central Laser Facility, Rutherford Appleton Laboratory, STFC and Department of Physics, SUPA, University of Strathclyde,
United Kingdom
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H. Ahmed;
H. Ahmed
School of Mathematics and Physics, Queen's University Belfast,
United Kingdom
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E. N. Ragozin;
E. N. Ragozin
P. N. Lebedev Physical Institute, Russian Academy of Sciences and Moscow Institute of Physics and Technology (State University),
Russia
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A. Ya. Faenov;
A. Ya. Faenov
Advanced Beam Technology Division, Japan Atomic Energy Agency and Joint Institute for High Temperatures, Russian Academy of Sciences,
Russia
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T. A. Pikuz;
T. A. Pikuz
Advanced Beam Technology Division, Japan Atomic Energy Agency and Joint Institute for High Temperatures, Russian Academy of Sciences,
Russia
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T. Kawachi;
T. Kawachi
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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A. Sagisaka;
A. Sagisaka
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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J. K. Koga;
J. K. Koga
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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M. Coury;
M. Coury
Department of Physics, SUPA, University of Strathclyde,
United Kingdom
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J. Green;
J. Green
Central Laser Facility, Rutherford Appleton Laboratory, STFC,
United Kingdom
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P. Foster;
P. Foster
Central Laser Facility, Rutherford Appleton Laboratory, STFC,
United Kingdom
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C. Brenner;
C. Brenner
Central Laser Facility, Rutherford Appleton Laboratory, STFC and Department of Physics, SUPA, University of Strathclyde,
United Kingdom
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B. Dromey;
B. Dromey
School of Mathematics and Physics, Queen's University Belfast,
United Kingdom
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D. R. Symes;
D. R. Symes
Central Laser Facility, Rutherford Appleton Laboratory, STFC,
United Kingdom
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M. Mori;
M. Mori
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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K. Kawase;
K. Kawase
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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T. Kameshima;
T. Kameshima
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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Y. Fukuda;
Y. Fukuda
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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L. M. Chen;
L. M. Chen
Advanced Beam Technology Division, Japan Atomic Energy Agency and Institute of Physics, Chinese Academy of Sciences,
China
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I. Daito;
I. Daito
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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K. Ogura;
K. Ogura
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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Y. Hayashi;
Y. Hayashi
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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H. Kotaki;
H. Kotaki
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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H. Kiriyama;
H. Kiriyama
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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H. Okada;
H. Okada
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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N. Nishimori;
N. Nishimori
Laser Application Technology Division, Japan Atomic Energy Agency,
Japan
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T. Imazono;
T. Imazono
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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K. Kondo;
K. Kondo
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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T. Kimura;
T. Kimura
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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T. Tajima;
T. Tajima
Advanced Beam Technology Division, Japan Atomic Energy Agency and Ludwig-Maximilians-University Munich,
Germany
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H. Daido;
H. Daido
Advanced Beam Technology Division, Japan Atomic Energy Agency,
Japan
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P. Rajeev;
P. Rajeev
Central Laser Facility, Rutherford Appleton Laboratory, STFC,
United Kingdom
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P. Mckenna;
P. Mckenna
Department of Physics, SUPA, University of Strathclyde,
United Kingdom
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M. Borghesi;
M. Borghesi
School of Mathematics and Physics, Quee'ns University Belfast,
United Kingdom
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D. Neely;
D. Neely
Central Laser Facility, Rutherford Appleton Laboratory, STFC and Department of Physics, SUPA, University of Strathclyde,
United Kingdom
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Y. Kato;
Y. Kato
Advanced Beam Technology Division, Japan Atomic Energy Agency and The Graduate School for the Creation of New Photonics Industries,
Japan
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S. V. Bulanov
S. V. Bulanov
Advanced Beam Technology Division, Japan Atomic Energy Agency and A. M. Prokhorov Institute of General Physics, Russian Academy of Sciences,
Russia
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AIP Conf. Proc. 1465, 172–180 (2012)
Citation
T. Zh. Esirkepov, A. S. Pirozhkov, M. Kando, P. Gallegos, H. Ahmed, E. N. Ragozin, A. Ya. Faenov, T. A. Pikuz, T. Kawachi, A. Sagisaka, J. K. Koga, M. Coury, J. Green, P. Foster, C. Brenner, B. Dromey, D. R. Symes, M. Mori, K. Kawase, T. Kameshima, Y. Fukuda, L. M. Chen, I. Daito, K. Ogura, Y. Hayashi, H. Kotaki, H. Kiriyama, H. Okada, N. Nishimori, T. Imazono, K. Kondo, T. Kimura, T. Tajima, H. Daido, P. Rajeev, P. Mckenna, M. Borghesi, D. Neely, Y. Kato, S. V. Bulanov; High-order harmonics from bow wave caustics driven by a high-intensity laser. AIP Conf. Proc. 11 July 2012; 1465 (1): 172–180. https://doi.org/10.1063/1.4737558
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