D
D. E. Hinkel
Researcher at Lawrence Livermore National Laboratory
Publications - 30
Citations - 4580
D. E. Hinkel is an academic researcher from Lawrence Livermore National Laboratory. The author has contributed to research in topics: National Ignition Facility & Hohlraum. The author has an hindex of 23, co-authored 30 publications receiving 4242 citations.
Papers
More filters
Journal ArticleDOI
Fuel gain exceeding unity in an inertially confined fusion implosion
Omar Hurricane,D. A. Callahan,Daniel Casey,P. M. Celliers,C. J. Cerjan,E. L. Dewald,T. R. Dittrich,Tilo Döppner,D. E. Hinkel,L. F. Berzak Hopkins,John Kline,S. Le Pape,T. Ma,Andrew MacPhee,Jose Milovich,Art Pak,H.-S. Park,P. K. Patel,Bruce Remington,Jay D. Salmonson,P. T. Springer,R. Tommasini +21 more
TL;DR: In this article, the authors report the achievement of fusion fuel gains exceeding unity on the US National Ignition Facility using a high-foot implosion method, which is a manipulation of the laser pulse shape in a way that reduces instability in the implosion.
Journal ArticleDOI
Point design targets, specifications, and requirements for the 2010 ignition campaign on the National Ignition Facility
S. W. Haan,J. D. Lindl,Debra Callahan,Daniel Clark,Jay D. Salmonson,B. A. Hammel,L. J. Atherton,Robert Cook,M. J. Edwards,Siegfried Glenzer,A. V. Hamza,S. P. Hatchett,Mark Herrmann,D. E. Hinkel,Darwin Ho,H. Huang,O. S. Jones,John Kline,G. A. Kyrala,Otto Landen,B. J. MacGowan,M. M. Marinak,D. D. Meyerhofer,Jose Milovich,K. A. Moreno,Edward I. Moses,D. H. Munro,A. Nikroo,R. E. Olson,Kyle Peterson,S. M. Pollaine,Joseph Ralph,Harry Robey,Brian Spears,P. T. Springer,L. J. Suter,Cliff Thomas,Richard Town,Roger Alan Vesey,S. V. Weber,H. Wilkens,Doug Wilson +41 more
TL;DR: Miller et al. as discussed by the authors proposed a point design for the initial ignition campaign on the National Ignition Facility (NIF) using D-T fusion fuel in an ablator of either CH with Ge doping, or Be with Cu.
Point Design Targets, Specifications, and Requirements for the 2010 Ignition Campaign on the National Ignition Facility
S. W. Haan,J. D. Lindl,Debra Callahan,David J. Clark,Jay D. Salmonson,B. A. Hammel,J. Atherton,Robert Cook,J. Edwards,Siegfried Glenzer,A. V. Hamza,S. P. Hatchett,D. E. Hinkel,Darwin Ho,O. S. Jones,Otto Landen,B. J. MacGowan,M. M. Marinak,Edward I. Moses,D. H. Munro,S. M. Pollaine,Brian Spears,P. T. Springer,L. J. Suter,Cliff Thomas,Richard Town,S. V. Weber,Doug Wilson,G. A. Kyrala,Mark Herrmann,R. E. Olson,Roger Alan Vesey,A. Nikroo,W Huang,K. A. Moreno +34 more
Journal ArticleDOI
Hot electron production and heating by hot electrons in fast ignitor research
M. H. Key,M. D. Cable,Thomas E. Cowan,Kent Estabrook,B. A. Hammel,S. P. Hatchett,E. A. Henry,D. E. Hinkel,J. D. Kilkenny,J. A. Koch,William L. Kruer,A. B. Langdon,Barbara F. Lasinski,Richard W. Lee,B. J. MacGowan,A. J. Mackinnon,J. D. Moody,Michael J. Moran,A. A. Offenberger,Deanna Marie Pennington,Michael D. Perry,T. J. Phillips,T. C. Sangster,M. S. Singh,M. A. Stoyer,Max Tabak,G. L. Tietbohl,M. Tsukamoto,Ken Wharton,Scott Wilks +29 more
TL;DR: In this article, the characteristics of the hot electron source at laser intensities up to 10(to the 20th power) Wcm{sup -2} and the heating produced at depth by hot electrons have been measured.
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.