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Burning plasma achieved in inertial fusion
Obtaining a burning plasma is a critical step towards self-sustaining fusion energy(1). A burning plasma is one in which the fusion reactions themselves are the primary source of heating in the plasma, which is necessary to sustain and propagate the burn, enabling high energy gain. After decades of...
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group UK
2022
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8791836/ https://www.ncbi.nlm.nih.gov/pubmed/35082418 http://dx.doi.org/10.1038/s41586-021-04281-w |
| _version_ | 1784640272233136128 |
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| author | Zylstra, A. B. Hurricane, O. A. Callahan, D. A. Kritcher, A. L. Ralph, J. E. Robey, H. F. Ross, J. S. Young, C. V. Baker, K. L. Casey, D. T. Döppner, T. Divol, L. Hohenberger, M. Le Pape, S. Pak, A. Patel, P. K. Tommasini, R. Ali, S. J. Amendt, P. A. Atherton, L. J. Bachmann, B. Bailey, D. Benedetti, L. R. Berzak Hopkins, L. Betti, R. Bhandarkar, S. D. Biener, J. Bionta, R. M. Birge, N. W. Bond, E. J. Bradley, D. K. Braun, T. Briggs, T. M. Bruhn, M. W. Celliers, P. M. Chang, B. Chapman, T. Chen, H. Choate, C. Christopherson, A. R. Clark, D. S. Crippen, J. W. Dewald, E. L. Dittrich, T. R. Edwards, M. J. Farmer, W. A. Field, J. E. Fittinghoff, D. Frenje, J. Gaffney, J. Gatu Johnson, M. Glenzer, S. H. Grim, G. P. Haan, S. Hahn, K. D. Hall, G. N. Hammel, B. A. Harte, J. Hartouni, E. Heebner, J. E. Hernandez, V. J. Herrmann, H. Herrmann, M. C. Hinkel, D. E. Ho, D. D. Holder, J. P. Hsing, W. W. Huang, H. Humbird, K. D. Izumi, N. Jarrott, L. C. Jeet, J. Jones, O. Kerbel, G. D. Kerr, S. M. Khan, S. F. Kilkenny, J. Kim, Y. Geppert Kleinrath, H. Geppert Kleinrath, V. Kong, C. Koning, J. M. Kroll, J. J. Kruse, M. K. G. Kustowski, B. Landen, O. L. Langer, S. Larson, D. Lemos, N. C. Lindl, J. D. Ma, T. MacDonald, M. J. MacGowan, B. J. Mackinnon, A. J. MacLaren, S. A. MacPhee, A. G. Marinak, M. M. Mariscal, D. A. Marley, E. V. Masse, L. Meaney, K. Meezan, N. B. Michel, P. A. Millot, M. Milovich, J. L. Moody, J. D. Moore, A. S. Morton, J. W. Murphy, T. Newman, K. Di Nicola, J.-M. G. Nikroo, A. Nora, R. Patel, M. V. Pelz, L. J. Peterson, J. L. Ping, Y. Pollock, B. B. Ratledge, M. Rice, N. G. Rinderknecht, H. Rosen, M. Rubery, M. S. Salmonson, J. D. Sater, J. Schiaffino, S. Schlossberg, D. J. Schneider, M. B. Schroeder, C. R. Scott, H. A. Sepke, S. M. Sequoia, K. Sherlock, M. W. Shin, S. Smalyuk, V. A. Spears, B. K. Springer, P. T. Stadermann, M. Stoupin, S. Strozzi, D. J. Suter, L. J. Thomas, C. A. Town, R. P. J. Tubman, E. R. Trosseille, C. Volegov, P. L. Weber, C. R. Widmann, K. Wild, C. Wilde, C. H. Van Wonterghem, B. M. Woods, D. T. Woodworth, B. N. Yamaguchi, M. Yang, S. T. Zimmerman, G. B. |
| author_facet | Zylstra, A. B. Hurricane, O. A. Callahan, D. A. Kritcher, A. L. Ralph, J. E. Robey, H. F. Ross, J. S. Young, C. V. Baker, K. L. Casey, D. T. Döppner, T. Divol, L. Hohenberger, M. Le Pape, S. Pak, A. Patel, P. K. Tommasini, R. Ali, S. J. Amendt, P. A. Atherton, L. J. Bachmann, B. Bailey, D. Benedetti, L. R. Berzak Hopkins, L. Betti, R. Bhandarkar, S. D. Biener, J. Bionta, R. M. Birge, N. W. Bond, E. J. Bradley, D. K. Braun, T. Briggs, T. M. Bruhn, M. W. Celliers, P. M. Chang, B. Chapman, T. Chen, H. Choate, C. Christopherson, A. R. Clark, D. S. Crippen, J. W. Dewald, E. L. Dittrich, T. R. Edwards, M. J. Farmer, W. A. Field, J. E. Fittinghoff, D. Frenje, J. Gaffney, J. Gatu Johnson, M. Glenzer, S. H. Grim, G. P. Haan, S. Hahn, K. D. Hall, G. N. Hammel, B. A. Harte, J. Hartouni, E. Heebner, J. E. Hernandez, V. J. Herrmann, H. Herrmann, M. C. Hinkel, D. E. Ho, D. D. Holder, J. P. Hsing, W. W. Huang, H. Humbird, K. D. Izumi, N. Jarrott, L. C. Jeet, J. Jones, O. Kerbel, G. D. Kerr, S. M. Khan, S. F. Kilkenny, J. Kim, Y. Geppert Kleinrath, H. Geppert Kleinrath, V. Kong, C. Koning, J. M. Kroll, J. J. Kruse, M. K. G. Kustowski, B. Landen, O. L. Langer, S. Larson, D. Lemos, N. C. Lindl, J. D. Ma, T. MacDonald, M. J. MacGowan, B. J. Mackinnon, A. J. MacLaren, S. A. MacPhee, A. G. Marinak, M. M. Mariscal, D. A. Marley, E. V. Masse, L. Meaney, K. Meezan, N. B. Michel, P. A. Millot, M. Milovich, J. L. Moody, J. D. Moore, A. S. Morton, J. W. Murphy, T. Newman, K. Di Nicola, J.-M. G. Nikroo, A. Nora, R. Patel, M. V. Pelz, L. J. Peterson, J. L. Ping, Y. Pollock, B. B. Ratledge, M. Rice, N. G. Rinderknecht, H. Rosen, M. Rubery, M. S. Salmonson, J. D. Sater, J. Schiaffino, S. Schlossberg, D. J. Schneider, M. B. Schroeder, C. R. Scott, H. A. Sepke, S. M. Sequoia, K. Sherlock, M. W. Shin, S. Smalyuk, V. A. Spears, B. K. Springer, P. T. Stadermann, M. Stoupin, S. Strozzi, D. J. Suter, L. J. Thomas, C. A. Town, R. P. J. Tubman, E. R. Trosseille, C. Volegov, P. L. Weber, C. R. Widmann, K. Wild, C. Wilde, C. H. Van Wonterghem, B. M. Woods, D. T. Woodworth, B. N. Yamaguchi, M. Yang, S. T. Zimmerman, G. B. |
| author_sort | Zylstra, A. B. |
| collection | PubMed |
| description | Obtaining a burning plasma is a critical step towards self-sustaining fusion energy(1). A burning plasma is one in which the fusion reactions themselves are the primary source of heating in the plasma, which is necessary to sustain and propagate the burn, enabling high energy gain. After decades of fusion research, here we achieve a burning-plasma state in the laboratory. These experiments were conducted at the US National Ignition Facility, a laser facility delivering up to 1.9 megajoules of energy in pulses with peak powers up to 500 terawatts. We use the lasers to generate X-rays in a radiation cavity to indirectly drive a fuel-containing capsule via the X-ray ablation pressure, which results in the implosion process compressing and heating the fuel via mechanical work. The burning-plasma state was created using a strategy to increase the spatial scale of the capsule(2,3) through two different implosion concepts(4–7). These experiments show fusion self-heating in excess of the mechanical work injected into the implosions, satisfying several burning-plasma metrics(3,8). Additionally, we describe a subset of experiments that appear to have crossed the static self-heating boundary, where fusion heating surpasses the energy losses from radiation and conduction. These results provide an opportunity to study α-particle-dominated plasmas and burning-plasma physics in the laboratory. |
| format | Online Article Text |
| id | pubmed-8791836 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2022 |
| publisher | Nature Publishing Group UK |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-87918362022-02-09 Burning plasma achieved in inertial fusion Zylstra, A. B. Hurricane, O. A. Callahan, D. A. Kritcher, A. L. Ralph, J. E. Robey, H. F. Ross, J. S. Young, C. V. Baker, K. L. Casey, D. T. Döppner, T. Divol, L. Hohenberger, M. Le Pape, S. Pak, A. Patel, P. K. Tommasini, R. Ali, S. J. Amendt, P. A. Atherton, L. J. Bachmann, B. Bailey, D. Benedetti, L. R. Berzak Hopkins, L. Betti, R. Bhandarkar, S. D. Biener, J. Bionta, R. M. Birge, N. W. Bond, E. J. Bradley, D. K. Braun, T. Briggs, T. M. Bruhn, M. W. Celliers, P. M. Chang, B. Chapman, T. Chen, H. Choate, C. Christopherson, A. R. Clark, D. S. Crippen, J. W. Dewald, E. L. Dittrich, T. R. Edwards, M. J. Farmer, W. A. Field, J. E. Fittinghoff, D. Frenje, J. Gaffney, J. Gatu Johnson, M. Glenzer, S. H. Grim, G. P. Haan, S. Hahn, K. D. Hall, G. N. Hammel, B. A. Harte, J. Hartouni, E. Heebner, J. E. Hernandez, V. J. Herrmann, H. Herrmann, M. C. Hinkel, D. E. Ho, D. D. Holder, J. P. Hsing, W. W. Huang, H. Humbird, K. D. Izumi, N. Jarrott, L. C. Jeet, J. Jones, O. Kerbel, G. D. Kerr, S. M. Khan, S. F. Kilkenny, J. Kim, Y. Geppert Kleinrath, H. Geppert Kleinrath, V. Kong, C. Koning, J. M. Kroll, J. J. Kruse, M. K. G. Kustowski, B. Landen, O. L. Langer, S. Larson, D. Lemos, N. C. Lindl, J. D. Ma, T. MacDonald, M. J. MacGowan, B. J. Mackinnon, A. J. MacLaren, S. A. MacPhee, A. G. Marinak, M. M. Mariscal, D. A. Marley, E. V. Masse, L. Meaney, K. Meezan, N. B. Michel, P. A. Millot, M. Milovich, J. L. Moody, J. D. Moore, A. S. Morton, J. W. Murphy, T. Newman, K. Di Nicola, J.-M. G. Nikroo, A. Nora, R. Patel, M. V. Pelz, L. J. Peterson, J. L. Ping, Y. Pollock, B. B. Ratledge, M. Rice, N. G. Rinderknecht, H. Rosen, M. Rubery, M. S. Salmonson, J. D. Sater, J. Schiaffino, S. Schlossberg, D. J. Schneider, M. B. Schroeder, C. R. Scott, H. A. Sepke, S. M. Sequoia, K. Sherlock, M. W. Shin, S. Smalyuk, V. A. Spears, B. K. Springer, P. T. Stadermann, M. Stoupin, S. Strozzi, D. J. Suter, L. J. Thomas, C. A. Town, R. P. J. Tubman, E. R. Trosseille, C. Volegov, P. L. Weber, C. R. Widmann, K. Wild, C. Wilde, C. H. Van Wonterghem, B. M. Woods, D. T. Woodworth, B. N. Yamaguchi, M. Yang, S. T. Zimmerman, G. B. Nature Article Obtaining a burning plasma is a critical step towards self-sustaining fusion energy(1). A burning plasma is one in which the fusion reactions themselves are the primary source of heating in the plasma, which is necessary to sustain and propagate the burn, enabling high energy gain. After decades of fusion research, here we achieve a burning-plasma state in the laboratory. These experiments were conducted at the US National Ignition Facility, a laser facility delivering up to 1.9 megajoules of energy in pulses with peak powers up to 500 terawatts. We use the lasers to generate X-rays in a radiation cavity to indirectly drive a fuel-containing capsule via the X-ray ablation pressure, which results in the implosion process compressing and heating the fuel via mechanical work. The burning-plasma state was created using a strategy to increase the spatial scale of the capsule(2,3) through two different implosion concepts(4–7). These experiments show fusion self-heating in excess of the mechanical work injected into the implosions, satisfying several burning-plasma metrics(3,8). Additionally, we describe a subset of experiments that appear to have crossed the static self-heating boundary, where fusion heating surpasses the energy losses from radiation and conduction. These results provide an opportunity to study α-particle-dominated plasmas and burning-plasma physics in the laboratory. Nature Publishing Group UK 2022-01-26 2022 /pmc/articles/PMC8791836/ /pubmed/35082418 http://dx.doi.org/10.1038/s41586-021-04281-w Text en © The Author(s) 2022, corrected publication 2022 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) . |
| spellingShingle | Article Zylstra, A. B. Hurricane, O. A. Callahan, D. A. Kritcher, A. L. Ralph, J. E. Robey, H. F. Ross, J. S. Young, C. V. Baker, K. L. Casey, D. T. Döppner, T. Divol, L. Hohenberger, M. Le Pape, S. Pak, A. Patel, P. K. Tommasini, R. Ali, S. J. Amendt, P. A. Atherton, L. J. Bachmann, B. Bailey, D. Benedetti, L. R. Berzak Hopkins, L. Betti, R. Bhandarkar, S. D. Biener, J. Bionta, R. M. Birge, N. W. Bond, E. J. Bradley, D. K. Braun, T. Briggs, T. M. Bruhn, M. W. Celliers, P. M. Chang, B. Chapman, T. Chen, H. Choate, C. Christopherson, A. R. Clark, D. S. Crippen, J. W. Dewald, E. L. Dittrich, T. R. Edwards, M. J. Farmer, W. A. Field, J. E. Fittinghoff, D. Frenje, J. Gaffney, J. Gatu Johnson, M. Glenzer, S. H. Grim, G. P. Haan, S. Hahn, K. D. Hall, G. N. Hammel, B. A. Harte, J. Hartouni, E. Heebner, J. E. Hernandez, V. J. Herrmann, H. Herrmann, M. C. Hinkel, D. E. Ho, D. D. Holder, J. P. Hsing, W. W. Huang, H. Humbird, K. D. Izumi, N. Jarrott, L. C. Jeet, J. Jones, O. Kerbel, G. D. Kerr, S. M. Khan, S. F. Kilkenny, J. Kim, Y. Geppert Kleinrath, H. Geppert Kleinrath, V. Kong, C. Koning, J. M. Kroll, J. J. Kruse, M. K. G. Kustowski, B. Landen, O. L. Langer, S. Larson, D. Lemos, N. C. Lindl, J. D. Ma, T. MacDonald, M. J. MacGowan, B. J. Mackinnon, A. J. MacLaren, S. A. MacPhee, A. G. Marinak, M. M. Mariscal, D. A. Marley, E. V. Masse, L. Meaney, K. Meezan, N. B. Michel, P. A. Millot, M. Milovich, J. L. Moody, J. D. Moore, A. S. Morton, J. W. Murphy, T. Newman, K. Di Nicola, J.-M. G. Nikroo, A. Nora, R. Patel, M. V. Pelz, L. J. Peterson, J. L. Ping, Y. Pollock, B. B. Ratledge, M. Rice, N. G. Rinderknecht, H. Rosen, M. Rubery, M. S. Salmonson, J. D. Sater, J. Schiaffino, S. Schlossberg, D. J. Schneider, M. B. Schroeder, C. R. Scott, H. A. Sepke, S. M. Sequoia, K. Sherlock, M. W. Shin, S. Smalyuk, V. A. Spears, B. K. Springer, P. T. Stadermann, M. Stoupin, S. Strozzi, D. J. Suter, L. J. Thomas, C. A. Town, R. P. J. Tubman, E. R. Trosseille, C. Volegov, P. L. Weber, C. R. Widmann, K. Wild, C. Wilde, C. H. Van Wonterghem, B. M. Woods, D. T. Woodworth, B. N. Yamaguchi, M. Yang, S. T. Zimmerman, G. B. Burning plasma achieved in inertial fusion |
| title | Burning plasma achieved in inertial fusion |
| title_full | Burning plasma achieved in inertial fusion |
| title_fullStr | Burning plasma achieved in inertial fusion |
| title_full_unstemmed | Burning plasma achieved in inertial fusion |
| title_short | Burning plasma achieved in inertial fusion |
| title_sort | burning plasma achieved in inertial fusion |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8791836/ https://www.ncbi.nlm.nih.gov/pubmed/35082418 http://dx.doi.org/10.1038/s41586-021-04281-w |
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