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Fusion Science and Technology Volume 43, 2003 - Issue 3: Special Issue of the Second International Atomic Energy Agency Technical Meeting on Physics and Technology of Inertial Fusion Energy Targets and Chambers
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Technical Paper

Some Problems Related to Heating the Compressed Thermonuclear Fuel through the Cone

Mikhail L. ShmatovIoffe Physical Technical Institute, 194021 St. Petersburg, Russia
Pages 456-467 | Published online: 12 May 2017

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Read on this site (2)

Mikhail L. Shmatov & Milan Kalal. (2012) Some Measures Providing High Seismic Ruggedness of IFE and Hybrid Power Plants. Fusion Science and Technology 61:3, pages 248-255.
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S. P. Hatchett, D. Clark, M. Tabak, R. E. Turner, C. Stoeckl, R. B. Stephens, H. Shiraga & K. Tanaka. (2006) Hydrodynamics of Conically Guided Fast Ignition Targets. Fusion Science and Technology 49:3, pages 327-341.
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Articles from other publishers (22)

Min-Qing He, Hua Zhang, Ming-Qiang Li, Li Peng & Cang-Tao Zhou. (2023) Proton beam energy deposition in fast ignition and production of protons on Shenguang II upgraded device. Acta Physica Sinica 72:9, pages 095201.
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Z. Li, X. H. Yang, H. Xu, G. B. Zhang, B. Zeng, S. J. Chen, Y. Y. Ma, F. Y. Wu & J. Zhang. (2022) Design of laser pulse shapes and target structures by random optimization for direct-drive inertial confinement fusion. Physics of Plasmas 29:9, pages 092705.
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Jan Badziak & Jarosław Domański. (2022) Ultra-intense laser-accelerated ion beams for high-gain inertial fusion: the effect of the ion mass on the beam properties. Nuclear Fusion 62:8, pages 086040.
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Toby Nonnenmacher, Titus-Stefan Dascalu, Robert Bingham, Chung Lim Cheung, Hin-Tung Lau, Ken Long, Jürgen Pozimski & Colin Whyte. (2021) Anomalous Beam Transport through Gabor (Plasma) Lens Prototype. Applied Sciences 11:10, pages 4357.
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Jan Badziak & Jarosław Domański. (2021) Laser-driven acceleration of ion beams for ion fast ignition: the effect of the laser wavelength on the ion beam properties. Plasma Physics and Controlled Fusion 63:5, pages 055005.
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Jan Badziak & Jarosław Domański. (2021) Laser-driven acceleration of ion beams for high-gain inertial confinement fusion. Nuclear Fusion 61:4, pages 046011.
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Z. Zibandeh Nezam, A. Ghasemizad & S. Khoshbinfar. (2020) A hybrid simulation of carbon ion beams generation, acceleration and the evaluation of the ignition condition. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 969, pages 164050.
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J. Badziak & J. Domański. (2020) Acceleration of carbon ion beams by an ultraviolet laser under conditions relevant for ion fast ignition of inertial fusion. Journal of Instrumentation 15:02, pages C02001-C02001.
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E.A. Panyutin & M.L. Shmatov. (2019) Capabilities of GaN/AlN/GaN structures as high-intensity pyroelectric laser sensors. Quantum Electronics 49:11, pages 1078-1082.
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Mikhail L. Shmatov. (2018) Igniting a microexplosion by a microexplosion and some other controlled thermonuclear fusion scenarios with neutronless reactions. Uspekhi Fizicheskih Nauk 189:01, pages 72-84.
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Michaela Martinkova & Mikhail L. Shmatov. (2016) Potential importance of ultra-deep penetration for operation of IFE power plants. Fusion Engineering and Design 105, pages 53-57.
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J.C. Fernández, B.J. Albright, F.N. Beg, M.E. Foord, B.M. Hegelich, J.J. Honrubia, M. Roth, R.B. Stephens & L. Yin. (2014) Fast ignition with laser-driven proton and ion beams. Nuclear Fusion 54:5, pages 054006.
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M. L. Shmatov. (2013) Comment on the paper by S.Yu. Gus’kov “Fast Ignition of Inertial Confinement Fusion Targets” [Plasma Phys. Rep. 39, 1 (2013)]. Plasma Physics Reports 39:10, pages 863-864.
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S. Yu. Gus’kov. (2013) Reply to M.L. Smatov’s Comment on the Paper by S.Yu. Gus’kov “Fast Ignition of Inertial Confinement Fusion Targets” [Plasma Phys. Rep. 39, 1 (2013)]. Plasma Physics Reports 39:10, pages 865-865.
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A. Maksimchuk, A. Raymond, F. Yu, G. M. Petrov, F. Dollar, L. Willingale, C. Zulick, J. Davis & K. Krushelnick. (2013) Dominant deuteron acceleration with a high-intensity laser for isotope production and neutron generation. Applied Physics Letters 102:19, pages 191117.
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Andrea Macchi, Marco Borghesi & Matteo Passoni. (2013) Ion acceleration by superintense laser-plasma interaction. Reviews of Modern Physics 85:2, pages 751-793.
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Michaela Martinkova, Milan Kalal & Mikhail L. Shmatov. (2013) Analysis of damaging effects of laser-plasma accelerated shrapnels on protecting glass shield. EPJ Web of Conferences 59, pages 08011.
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Mikhail L. Shmatov. (2011) Scattering of carbon ions in the material of the protective membrane of a fast ignition, indirect compression target without cone. Laser and Particle Beams 29:3, pages 339-344.
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C Regan, T Schlegel, V T Tikhonchuk, J J Honrubia, J-L Feugeas & Ph Nicolaï. (2011) Cone-guided fast ignition with ponderomotively accelerated carbon ions. Plasma Physics and Controlled Fusion 53:4, pages 045014.
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M. L. Shmatov. (2011) Some factors determining optimum typical ranges of laser-accelerated ions in equimolar D-T fuel. Technical Physics Letters 37:1, pages 87-90.
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V.T. Tikhonchuk, T. Schlegel, C. Regan, M. Temporal, J.-L. Feugeas, Ph. Nicolaï & X. Ribeyre. (2010) Fast ion ignition with ultra-intense laser pulses. Nuclear Fusion 50:4, pages 045003.
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M L Shmatov. (2008) Factors determining the choice of the laser-accelerated ions for fast ignition. Journal of Physics: Conference Series 112:2, pages 022061.
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