M
M. D. Rosen
Researcher at Lawrence Livermore National Laboratory
Publications - 92
Citations - 3882
M. D. Rosen is an academic researcher from Lawrence Livermore National Laboratory. The author has contributed to research in topics: Laser & Hohlraum. The author has an hindex of 39, co-authored 86 publications receiving 3252 citations.
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Journal ArticleDOI
Progress Towards Ignition on the National Ignition Facility
M. J. Edwards,P. K. Patel,J. D. Lindl,L. J. Atherton,Siegfried Glenzer,S. W. Haan,J. D. Kilkenny,O. L. Landen,Edward I. Moses,A. Nikroo,R. D. Petrasso,T. C. Sangster,P. T. Springer,Steven H. Batha,R. Benedetti,L. A. Bernstein,Riccardo Betti,D. L. Bleuel,T. R. Boehly,D. K. Bradley,J. A. Caggiano,D. A. Callahan,P. M. Celliers,C. J. Cerjan,K. C. Chen,Daniel Clark,Gilbert Collins,E. L. Dewald,Laurent Divol,S. N. Dixit,Tilo Doeppner,D. H. Edgell,James E. Fair,Michael Farrell,R. J. Fortner,Johan Frenje,M. Gatu Johnson,E. M. Giraldez,V. Yu. Glebov,Gary Grim,B. A. Hammel,A. V. Hamza,D. R. Harding,S. P. Hatchett,N. Hein,Hans W. Herrmann,Damien Hicks,D. E. Hinkel,M. Hoppe,W. W. Hsing,Nobuhiko Izumi,B. Jacoby,O. S. Jones,Daniel H. Kalantar,Robert L. Kauffman,John Kline,J. P. Knauer,J. A. Koch,B. J. Kozioziemski,G. A. Kyrala,K. N. LaFortune,S. Le Pape,R. J. Leeper,R. A. Lerche,T. Ma,B. J. MacGowan,A. J. Mackinnon,Andrew MacPhee,Evan Mapoles,M. M. Marinak,M. Mauldin,P. W. McKenty,M. Meezan,Pierre Michel,Jose Milovich,J. D. Moody,Matthew Moran,D. H. Munro,C. L. Olson,Kathy Opachich,Art Pak,T. G. Parham,H.-S. Park,Joseph Ralph,Sean Regan,Bruce Remington,H. G. Rinderknecht,Harry Robey,M. D. Rosen,Steven Ross,Jay D. Salmonson,J. D. Sater,D. H. Schneider,Fredrick Seguin,Scott Sepke,D. A. Shaughnessy,V. A. Smalyuk,Brian Spears,Christian Stoeckl,Wolfgang Stoeffl,L. J. Suter,Cliff Thomas,R. Tommasini,Richard Town,S. V. Weber,Paul J. Wegner,K. Widman,Mark D. Wilke,Doug Wilson,Charles Yeamans,Alex Zylstra +110 more
TL;DR: In this paper, a low-Z capsule filled with deuterium-tritium (DT) fuel via laser indirect-drive inertial confinement fusion and demonstrate fusion ignition and propagating thermonuclear burn with a net energy gain of ∼5-10 (fusion yield/input laser energy).
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
The role of a detailed configuration accounting (DCA) atomic physics package in explaining the energy balance in ignition-scale hohlraums
M. D. Rosen,Howard A. Scott,D. E. Hinkel,E. A. Williams,Debra Callahan,Richard Town,Laurent Divol,Pierre Michel,William L. Kruer,L. J. Suter,Richard A. London,J. A. Harte,George B. Zimmerman +12 more
TL;DR: The High Flux Model (HFM) as discussed by the authors was used in the National Ignition Campaign (NIC) gas-filled/capsule-imploding hohlraum energetics campaign.
Journal ArticleDOI
High temperatures in inertial confinement fusion radiation cavities heated with 0.35 microm light.
Robert L. Kauffman,L. J. Suter,Christopher B. Darrow,J. D. Kilkenny,H. N. Kornblum,D. S. Montgomery,D. W. Phillion,M. D. Rosen,A. R. Theissen,R. J. Wallace,F. Ze +10 more
TL;DR: Low levels of scattered light and fast electrons are observed, indicating that plasma instability production is not significant, and efficient coupling of 0.35 $\ensuremath{\mu}$ laser light for radiation production in inertial confinement fusion (ICF) cavity targets is demonstrated.
Journal ArticleDOI
Hydrodynamics of exploding foil x‐ray lasers
Richard A. London,M. D. Rosen +1 more
TL;DR: In this article, an accurate simple model for the hydrodynamics of laser heated exploding foils is presented, based on an isothermal, homogeneous expansion similarity solution of the ideal hydrodynamic equations.