D
Daniel H. Kalantar
Researcher at Lawrence Livermore National Laboratory
Publications - 233
Citations - 7425
Daniel H. Kalantar is an academic researcher from Lawrence Livermore National Laboratory. The author has contributed to research in topics: National Ignition Facility & Laser. The author has an hindex of 44, co-authored 219 publications receiving 6595 citations.
Papers
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Journal ArticleDOI
Symmetric inertial confinement fusion implosions at ultra-high laser energies.
Siegfried Glenzer,B. J. MacGowan,Pierre Michel,Nathan Meezan,L. J. Suter,S. N. Dixit,John Kline,G. A. Kyrala,D. K. Bradley,D. A. Callahan,E. L. Dewald,Laurent Divol,E. G. Dzenitis,M. J. Edwards,Alex V. Hamza,C. A. Haynam,D. E. Hinkel,Daniel H. Kalantar,J. D. Kilkenny,Otto Landen,J. D. Lindl,Sebastien LePape,John Moody,Abbas Nikroo,T. G. Parham,Marilyn Schneider,Richard Town,Paul J. Wegner,Klaus Widmann,Pamela K. Whitman,B. K. F. Young,B. M. Van Wonterghem,L. J. Atherton,Edward I. Moses +33 more
TL;DR: Experiments at the National Ignition Facility indicate that the conditions are suitable for compressing deuterium-tritium–filled capsules, with the goal of achieving burning fusion plasmas and energy gain in the laboratory.
Journal ArticleDOI
Void growth by dislocation emission
TL;DR: In this paper, a criterion for the emission of a dislocation from the surface of a void under remote tension is formulated, analogous to Rice and Thomsons criterion for crack blunting by dislocation emission from the crack tip.
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
Direct Observation of the alpha-epsilon Transition in Shock-compressed Iron via Nanosecond X-ray Diffraction
Daniel H. Kalantar,James Belak,Gilbert Collins,J. D. Colvin,H. M. Davies,Jon Eggert,Timothy C. Germann,James Hawreliak,Brad Lee Holian,Kai Kadau,Peter S. Lomdahl,Hector Lorenzana,Marc A. Meyers,K. Rosolankova,Matt S. Schneider,J. Sheppard,James S. Stolken,Justin Wark +17 more
TL;DR: In situ x-ray diffraction studies of iron under shock conditions confirm unambiguously a phase change from the bcc (alpha) to hcp (epsilon) structure, and are in good agreement with large-scale nonequilibrium molecular dynamics simulations.
Journal ArticleDOI
Laser-induced shock compression of monocrystalline copper: characterization and analysis
Marc A. Meyers,Fabienne Grégori,Bimal K. Kad,M. S. Schneider,Daniel H. Kalantar,Bruce Remington,Guruswami Ravichandran,T. R. Boehly,Justin Wark +8 more
TL;DR: In this paper, a method for estimating dislocation densities is proposed, based on nucleation of loops at the shock front and their extension due to residual shear stresses behind the front.