D
David Strozzi
Researcher at Lawrence Livermore National Laboratory
Publications - 160
Citations - 4069
David Strozzi is an academic researcher from Lawrence Livermore National Laboratory. The author has contributed to research in topics: Inertial confinement fusion & National Ignition Facility. The author has an hindex of 33, co-authored 137 publications receiving 2930 citations. Previous affiliations of David Strozzi include Massachusetts Institute of Technology & University of Texas at Austin.
Papers
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Journal ArticleDOI
Fusion Energy Output Greater than the Kinetic Energy of an Imploding Shell at the National Ignition Facility.
S. Le Pape,L. F. Berzak Hopkins,Laurent Divol,Art Pak,E. L. Dewald,Suhas Bhandarkar,L. R. Bennedetti,T. Bunn,Jürgen Biener,J. Crippen,Daniel Casey,D. H. Edgell,David N. Fittinghoff,Maria Gatu-Johnson,Clement Goyon,S. W. Haan,Robert Hatarik,M. Havre,Darwin Ho,Nobuhiko Izumi,J. Jaquez,Shahab Khan,G. A. Kyrala,T. Ma,A. J. Mackinnon,Andrew MacPhee,B. J. MacGowan,Nathan Meezan,Jose Milovich,Marius Millot,Pierre Michel,S. R. Nagel,A. Nikroo,P. K. Patel,Joseph Ralph,Jason Ross,Neal Rice,David Strozzi,Michael Stadermann,Petr Volegov,C. B. Yeamans,C. R. Weber,C. Wild,D. A. Callahan,Omar Hurricane +44 more
TL;DR: Time dependent low mode asymmetries that limited further progress of implosions have now been controlled, leading to an increased compression of the hot spot, resulting in hot spot areal density and stagnation pressure never before achieved in a laboratory experiment.
Journal ArticleDOI
Burning plasma achieved in inertial fusion
Alex Zylstra,Omar Hurricane,D. A. Callahan,Andrea Kritcher,Joseph Ralph,Harry Robey,J. Steven Ross,Christopher Young,Kevin Baker,D. T. Casey,Tilo Döppner,Laurent Divol,Matthias Hohenberger,S. Le Pape,Art Pak,P. K. Patel,R. Tommasini,S. Ali,Peter Amendt,L. J. Atherton,Benjamin Bachmann,D. S. Bailey,Laura Robin Benedetti,L. F. Berzak Hopkins,Riccardo Betti,Suhas Bhandarkar,Jürgen Biener,R. M. Bionta,N. Birge,E. J. Bond,D. K. Bradley,T. Braun,Tammie Marie Briggs,Matthew W. Bruhn,Peter M. Celliers,B. Chang,Thomas Chapman,H. Chen,C. Choate,A. R. Christopherson,Daniel S. Clark,J. Crippen,E. L. Dewald,T. R. Dittrich,M. J. Edwards,William Farmer,John K. Field,David N. Fittinghoff,Johan Frenje,Jim Gaffney,M. Gatu Johnson,Siegfried Glenzer,G. P. Grim,S. W. Haan,K. D. Hahn,Gareth Hall,B. A. Hammel,J. A. Harte,E. P. Hartouni,John E. Heebner,V.J. Hernandez,Hans J. Herrmann,Mark Herrmann,Denise Hinkel,Dac Duc Ho,J. P. Holder,W. W. Hsing,H. Huang,Kelli Humbird,N. Izumi,Leonard Jarrott,Justin Jeet,O. S. Jones,G.D. Kerbel,Shaun Kerr,J. D. Kilkenny,Y. Kim,H. Geppert Kleinrath,V. Geppert Kleinrath,C. Kong,Joseph Koning,Jeffrey J. Kroll,Matthias Kruse,Bogdan Kustowski,Otto Landen,Steven H. Langer,D. Larson,Nuno Lemos,J. D. Lindl,T. Ma,M. J. MacDonald,B. J. MacGowan,A. J. Mackinnon,Stephan MacLaren,Andrew MacPhee,M. M. Marinak,Dereck. A. Mariscal,E. Marley,Laurent Masse,K. D. Meaney,Nathan Meezan,Pierre Michel,Marius Millot,Jose Milovich,J. D. Moody,Alastair Moore,John W. Morton,T. W. Murphy,Kaitlyn Beverly Newman,J. M. Di Nicola,A. Nikroo,Ryan Nora,Mehali Patel,Lawrence J. Pelz,J. L. Peterson,Yi Ping,Bradley H Pollock,M. Ratledge,Neal Rice,H. G. Rinderknecht,M. D. Rosen,M. S. Rubery,Jay D. Salmonson,J. D. Sater,Sergio Schiaffino,David Schlossberg,Marilyn Schneider,Christopher Schroeder,Howard A. Scott,Scott Sepke,K. L. Sequoia,Mark Sherlock,S Shin,V. A. Smalyuk,Brian Spears,P. T. Springer,Michael Stadermann,Stanislav Stoupin,David Strozzi,L. Suter,C. Thomas,Richard Town,Eleanor Tubman,Petr Volegov,C. R. Weber,Klaus Widmann,C. Wild,Carl Wilde,B. M. Van Wonterghem,D. Tod Woods,Brandon Woodworth,M. Yamaguchi,S. Yang,George B. Zimmerman +153 more
TL;DR: In this paper , the authors achieved a burning-plasma state in the laboratory using a strategy to increase the spatial scale of the capsule through two different implosion concepts and showed that fusion self-heating in excess of the mechanical work injected into the implosions, satisfying several burningplasma metrics.
Journal ArticleDOI
Inertially confined fusion plasmas dominated by alpha-particle self-heating
Omar Hurricane,D. A. Callahan,Daniel Casey,E. L. Dewald,T. R. Dittrich,Tilo Döppner,S. W. Haan,Denise Hinkel,L. F. Berzak Hopkins,O. S. Jones,Andrea Kritcher,S. Le Pape,T. Ma,Andrew MacPhee,Jose Milovich,J. D. Moody,Art Pak,H.-S. Park,P. K. Patel,Joseph Ralph,Harry Robey,Jason Ross,Jay D. Salmonson,Brian Spears,P. T. Springer,R. Tommasini,Felicie Albert,Laura Robin Benedetti,R. M. Bionta,E. J. Bond,D. K. Bradley,J. A. Caggiano,Peter M. Celliers,C. J. Cerjan,J. A. Church,Rebecca Dylla-Spears,D. H. Edgell,M. J. Edwards,David N. Fittinghoff,M. A. Barrios Garcia,A. V. Hamza,Robert Hatarik,Hans W. Herrmann,Matthias Hohenberger,D. Hoover,John Kline,G. A. Kyrala,B. J. Kozioziemski,Gary Grim,J. E. Field,Johan Frenje,Nobuhiko Izumi,M. Gatu Johnson,Shahab Khan,J. P. Knauer,T. Kohut,Otto Landen,Frank E. Merrill,Pierre Michel,Alastair Moore,S. R. Nagel,Abbas Nikroo,T. G. Parham,Ryan Rygg,Daniel Sayre,Marilyn Schneider,D. Shaughnessy,David Strozzi,Richard Town,David Turnbull,Petr Volegov,Alan S. Wan,Klaus Widmann,Carl Wilde,C. B. Yeamans +74 more
TL;DR: Inertial confinement fusion, based on laser-heating a deuterium-tritium mixture, is one of the approaches towards energy production from fusion reactions.
Journal ArticleDOI
Theory of fast electron transport for fast ignition
Alexander Robinson,David Strozzi,J. R. Davies,Laurent Gremillet,J. J. Honrubia,Tomoyuki Johzaki,Robert Kingham,Mark Sherlock,A. A. Solodov +8 more
TL;DR: Fast ignition (FI) is a variant of inertial confinement fusion in which DT fuel is first compressed to high density and then ignited by a relativistic electron beam generated by a fast (<20?ps) ultra-intense laser pulse, which is usually brought in to the dense plasma via the inclusion of a reentrant cone as mentioned in this paper.
Journal ArticleDOI
Fast-ignition transport studies: Realistic electron source, integrated particle-in-cell and hydrodynamic modeling, imposed magnetic fields
David Strozzi,Max Tabak,David Larson,Laurent Divol,Andreas Kemp,Claudio Bellei,M. M. Marinak,M. H. Key +7 more
TL;DR: In this article, a 3D explicit-PIC laser-plasma simulation with the PSC code is presented, which shows a quasi two-temperature energy spectrum and a divergent angle spectrum (average velocity-space polar angle of 52°).