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Shock ignition is considered as a relatively robust way to achieve the efficient fuel burn in inertial confinement fusion. However it requires intense laser pulses of sub-ns to launch strong convergent shock to ignite the pre-compressed target. Here we present a novel method, which has a substantially high extraction efficiency, to amplify laser pulses of ~200 ps for shock ignition. In this method, stacking pulse with a Stokes light of ~200 ps in the front and a pump light of ~5 ns following, is employed to propagate in the amplifier to extract the stored energy, then in the final system after harmonic conversion, laser energy is transferred from pump pulse to probe pulse by stimulated Brillouin scattering. Because of employing long pulse in the main amplifier, an output laser energy of 1520 kJ is achievable at fundamental frequency. Simulations show that the energy transfer efficiency is up to 75%, considering harmonic conversion efficiency of 60%80%, implying that 510 kJ laser pulses of ~200 ps can be produced using this scheme. As a result, only ~20 beams are required to generate the ignitor, reducing the cost for realizing the shock ignition.
[1] Betti R, Zhou C D, Anderson K S, Perkins L J, Theobald W, Solodov A A 2007 Phys. Rev. Lett. 98 155001
[2] Tabak M, Hammer J, Glinsky M E, Kruer W L, Wilks S C, Woodworth J, Campbell E M, Perry M D, Mason R J 1994 Phys. Plasmas 1 1626
[3] [4] [5] Kodama R, Shiraga H, Shigemori K, Toyama Y, Fujioka S, Azechi H, Fujita H, Habara H, Hall T, Izawa Y, Jitsuno T, Kitagawa Y, Krushelnick K M, Lancaster K L, Mima K, Nagai K, Nakai M, Nishimura H, Norimatsu T, Norreys P A, Sakabe S, Tanaka K A, Youssef A, Zepf M, Yamanaka T 2002 Nature 418 933
[6] [7] Kodama R, Norreys P A, Mima K, Dangor A E, Evans R G, Fujita H, Kitagawa Y, Krushelnick K, Miyakoshi T, Miyanaga N, Norimatsu T, Rose S J, Shozaki T, Shigemori K, Sunahara A, Tampo M, Tanaka K A, Toyama Y, Yamanaka T, Zepf M 2001 Nature 412 798
[8] Nuckolls J O, Wood L O, Thiessen A L, Zimmerman G E 1972 Nature 239 139
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[16] [17] Ribeyre X, Schurtz G, Lafon M, Galera S, Weber S 2009 Plasma Phys. Contr. F 51 15013
[18] [19] Perkins L J, Betti R, Lafortune K N, Williams W H 2009 Phys. Rev. Lett. 103 45004
[20] Schmitt A J, Bates J W, Obenschain S R, Zalesak S T, Fyfe D E, Betti R 2009 Fusion Sci. Technol. 56 377
[21] [22] Ribeyre X, Lafon M, Schurtz G, Olazabal-Loume M, Breil J, Galera S, Weber S 2009 Plasma Phys. Contr. F 51 124030
[23] [24] [25] Schmitt A J, Bates J W, Obenschain S P, Zalesak S T, Fyfe D E 2010 Phys. Plasmas 17 42701
[26] Canaud B, Temporal M 2010 New J. Phys. 12 43037
[27] [28] Klimo O, Weber S, Tikhonchuk V T, Limpouch J 2010 Plasma Phys. Contr. F 52 55013
[29] [30] [31] Lafon M, Ribeyre X, Schurtz G 2010 Phys. Plasmas 17 52704
[32] [33] Bates J W, Schmitt A J, Fyfe D E, Obenschain S P, Zalesak S T 2010 High Energ. Dens. Phys. 6 128
[34] Atzeni S, Schiavi A, Marocchino A 2011 Plasma Phys. Contr. F 53 35010
[35] [36] Canaud B, Laffite S, Temporal M 2011 Nucl. Fusion 51 62001
[37] [38] [39] Yuan Q, Hu D X, Zhang X, Zhao J P, Hu S D, Huang W H, Wei X F 2011 Acta Phys. Sin. 60 015202 (in Chinese) [袁强, 胡东霞, 张鑫, 赵军谱, 胡思得, 黄文会, 魏晓峰 2011 60 015202]
[40] Yuan Q, Hu D X, Zhang X, Zhao J P, Hu S D, Huang W H, Wei X F 2011 Acta Phys. Sin. 60 045207 (in Chinese) [袁强, 胡东霞, 张鑫, 赵军谱, 胡思得, 黄文会, 魏晓峰 2011 60 045207]
[41] [42] [43] Cecchetti C A, Giulietti A, Koester P, Labate L, Levato T, Gizzi L A, Antonelli L, Patria A, Batani D, Kozlova M, Margarone D, Nejdl J, Rus B, Sawicka M, Lafon M, Ribeyre X, Schurtz G 2011 Proc. SPIE 8080 80802A
[44] [45] Canaud B, Garaude F, Clique C, Lecler N, Masson A, Quach R, Van der Vliet J 2007 Nucl. Fusion 47 1652
[46] [47] Marozas J A, Marshall F J, Craxton R S, Igumenshchev I V, Skupsky S, Bonino M J, Collins T J B, Epstein R, Glebov V Y, Jacobs-Perkins D, Knauer J P, Mccrory R L, Mckenty P W, Meyerhofer D D, Noyes S G, Radha P B, Sangster T C, Seka W, Smalyuk V A 2006 Phys. Plasmas 13 56311
[48] [49] Craxton R S, Marshall F J, Bonino M J, Epstein R, Mckenty P W, Skupsky S, Delettrez J A, Igumenshchev I V, Jacobs-Perkins D W, Knauer J P, Marozas J A, Radha P B, Seka W 2005 Phys. Plasmas 12 56304
[50] Canaud B, Fortin X, Garaude F, Meyer C, Philippe F, Temporal M, Atzeni S, Schiavi A 2004 Nucl. Fusion 44 1118
[51] [52] Skupsky S, Marozas J A, Craxton R S, Betti R, Collins T J B, Delettrez J A, Goncharov V N, Mckenty P W, Radha P B, Boehly T R, Knauer J P, Marshall F J, Harding D R, Kilkenny J D, Meyerhofer D D, Sangster T C, Mccrory R L 2004 Phys. Plasmas 11 2763
[53] [54] [55] Canaud B, Fortin X, Dague N, Bocher J L 2002 Phys. Plasmas 9 4252
[56] Mckenty P W, Goncharov V N, Town R P J, Skupsky S, Betti R, Mccrory R L 2001 Phys. Plasmas 8 2315
[57] [58] Dane C B, Zapata L E, Neuman W A, Norton M A, Hackel L A 1995 IEEE J. Quantum Elect. 31 148
[59] [60] [61] Sirazetdinov V S, Alekseev V N, Charukhchev A V, Kotilev V N, Liber V I, Serebryakov V A 1999 Proc. SPIE 3492 1002
[62] Yoshida H, Hatae T, Fujita H, Nakatsuka M, Kitamura S 2009 Opt. Express 17 13654
[63] [64] [65] Damzen M J, Vlad V I, Babin V, Mocofanescu A 2003 Stimulated Brillouin Scattering: Fundamentals and Applications (London: IOP Publishing)
[66] Yoshida H, Nakatsuka M, Hatae T, Kitamura S, Sakuma T, Hamano T 2004 Jpn. J. Appl. Phys. 43 L1038
[67] [68] [69] Yoshida H, Kmetik V, Fujita H, Nakatsuka M, Yamanaka T, Yoshida K 1997 Appl. Opt. 36 3739
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[1] Betti R, Zhou C D, Anderson K S, Perkins L J, Theobald W, Solodov A A 2007 Phys. Rev. Lett. 98 155001
[2] Tabak M, Hammer J, Glinsky M E, Kruer W L, Wilks S C, Woodworth J, Campbell E M, Perry M D, Mason R J 1994 Phys. Plasmas 1 1626
[3] [4] [5] Kodama R, Shiraga H, Shigemori K, Toyama Y, Fujioka S, Azechi H, Fujita H, Habara H, Hall T, Izawa Y, Jitsuno T, Kitagawa Y, Krushelnick K M, Lancaster K L, Mima K, Nagai K, Nakai M, Nishimura H, Norimatsu T, Norreys P A, Sakabe S, Tanaka K A, Youssef A, Zepf M, Yamanaka T 2002 Nature 418 933
[6] [7] Kodama R, Norreys P A, Mima K, Dangor A E, Evans R G, Fujita H, Kitagawa Y, Krushelnick K, Miyakoshi T, Miyanaga N, Norimatsu T, Rose S J, Shozaki T, Shigemori K, Sunahara A, Tampo M, Tanaka K A, Toyama Y, Yamanaka T, Zepf M 2001 Nature 412 798
[8] Nuckolls J O, Wood L O, Thiessen A L, Zimmerman G E 1972 Nature 239 139
[9] [10] Lindl J D, Amendt P, Berger R L, Glendinning S G, Glenzer S H, Haan S W, Kauffman R L, Landen O L, Suter L J 2004 Phys. Plasmas 11 339
[11] [12] Lindl J 1995 Phys. Plasmas 2 3933
[13] [14] [15] Theobald W, Betti R, Stoeckl C, Anderson K S, Delettrez J A, Glebov V Y, Goncharov V N, Marshall F J, Maywar D N, Mccrory R L, Meyerhofer D D, Radha P B, Sangster T C, Seka W, Shvarts D, Smalyuk V A, Solodov A A, Yaakobi B, Zhou C D, Frenje J A, Li C K, Seguin F H, Petrasso R D, Perkins L J 2008 Phys. Plasmas 15 56301
[16] [17] Ribeyre X, Schurtz G, Lafon M, Galera S, Weber S 2009 Plasma Phys. Contr. F 51 15013
[18] [19] Perkins L J, Betti R, Lafortune K N, Williams W H 2009 Phys. Rev. Lett. 103 45004
[20] Schmitt A J, Bates J W, Obenschain S R, Zalesak S T, Fyfe D E, Betti R 2009 Fusion Sci. Technol. 56 377
[21] [22] Ribeyre X, Lafon M, Schurtz G, Olazabal-Loume M, Breil J, Galera S, Weber S 2009 Plasma Phys. Contr. F 51 124030
[23] [24] [25] Schmitt A J, Bates J W, Obenschain S P, Zalesak S T, Fyfe D E 2010 Phys. Plasmas 17 42701
[26] Canaud B, Temporal M 2010 New J. Phys. 12 43037
[27] [28] Klimo O, Weber S, Tikhonchuk V T, Limpouch J 2010 Plasma Phys. Contr. F 52 55013
[29] [30] [31] Lafon M, Ribeyre X, Schurtz G 2010 Phys. Plasmas 17 52704
[32] [33] Bates J W, Schmitt A J, Fyfe D E, Obenschain S P, Zalesak S T 2010 High Energ. Dens. Phys. 6 128
[34] Atzeni S, Schiavi A, Marocchino A 2011 Plasma Phys. Contr. F 53 35010
[35] [36] Canaud B, Laffite S, Temporal M 2011 Nucl. Fusion 51 62001
[37] [38] [39] Yuan Q, Hu D X, Zhang X, Zhao J P, Hu S D, Huang W H, Wei X F 2011 Acta Phys. Sin. 60 015202 (in Chinese) [袁强, 胡东霞, 张鑫, 赵军谱, 胡思得, 黄文会, 魏晓峰 2011 60 015202]
[40] Yuan Q, Hu D X, Zhang X, Zhao J P, Hu S D, Huang W H, Wei X F 2011 Acta Phys. Sin. 60 045207 (in Chinese) [袁强, 胡东霞, 张鑫, 赵军谱, 胡思得, 黄文会, 魏晓峰 2011 60 045207]
[41] [42] [43] Cecchetti C A, Giulietti A, Koester P, Labate L, Levato T, Gizzi L A, Antonelli L, Patria A, Batani D, Kozlova M, Margarone D, Nejdl J, Rus B, Sawicka M, Lafon M, Ribeyre X, Schurtz G 2011 Proc. SPIE 8080 80802A
[44] [45] Canaud B, Garaude F, Clique C, Lecler N, Masson A, Quach R, Van der Vliet J 2007 Nucl. Fusion 47 1652
[46] [47] Marozas J A, Marshall F J, Craxton R S, Igumenshchev I V, Skupsky S, Bonino M J, Collins T J B, Epstein R, Glebov V Y, Jacobs-Perkins D, Knauer J P, Mccrory R L, Mckenty P W, Meyerhofer D D, Noyes S G, Radha P B, Sangster T C, Seka W, Smalyuk V A 2006 Phys. Plasmas 13 56311
[48] [49] Craxton R S, Marshall F J, Bonino M J, Epstein R, Mckenty P W, Skupsky S, Delettrez J A, Igumenshchev I V, Jacobs-Perkins D W, Knauer J P, Marozas J A, Radha P B, Seka W 2005 Phys. Plasmas 12 56304
[50] Canaud B, Fortin X, Garaude F, Meyer C, Philippe F, Temporal M, Atzeni S, Schiavi A 2004 Nucl. Fusion 44 1118
[51] [52] Skupsky S, Marozas J A, Craxton R S, Betti R, Collins T J B, Delettrez J A, Goncharov V N, Mckenty P W, Radha P B, Boehly T R, Knauer J P, Marshall F J, Harding D R, Kilkenny J D, Meyerhofer D D, Sangster T C, Mccrory R L 2004 Phys. Plasmas 11 2763
[53] [54] [55] Canaud B, Fortin X, Dague N, Bocher J L 2002 Phys. Plasmas 9 4252
[56] Mckenty P W, Goncharov V N, Town R P J, Skupsky S, Betti R, Mccrory R L 2001 Phys. Plasmas 8 2315
[57] [58] Dane C B, Zapata L E, Neuman W A, Norton M A, Hackel L A 1995 IEEE J. Quantum Elect. 31 148
[59] [60] [61] Sirazetdinov V S, Alekseev V N, Charukhchev A V, Kotilev V N, Liber V I, Serebryakov V A 1999 Proc. SPIE 3492 1002
[62] Yoshida H, Hatae T, Fujita H, Nakatsuka M, Kitamura S 2009 Opt. Express 17 13654
[63] [64] [65] Damzen M J, Vlad V I, Babin V, Mocofanescu A 2003 Stimulated Brillouin Scattering: Fundamentals and Applications (London: IOP Publishing)
[66] Yoshida H, Nakatsuka M, Hatae T, Kitamura S, Sakuma T, Hamano T 2004 Jpn. J. Appl. Phys. 43 L1038
[67] [68] [69] Yoshida H, Kmetik V, Fujita H, Nakatsuka M, Yamanaka T, Yoshida K 1997 Appl. Opt. 36 3739
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