M
Michael G. Mazarakis
Researcher at Sandia National Laboratories
Publications - 132
Citations - 2563
Michael G. Mazarakis is an academic researcher from Sandia National Laboratories. The author has contributed to research in topics: Linear transformer driver & Diode. The author has an hindex of 25, co-authored 130 publications receiving 2289 citations.
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Journal ArticleDOI
Pulsed-power-driven high energy density physics and inertial confinement fusion research
M. Keith Matzen,M. A. Sweeney,R. G. Adams,James R. Asay,James E. Bailey,Guy R. Bennett,David E. Bliss,D.D. Bloomquist,Thomas A. Brunner,R. B. Campbell,Gordon A. Chandler,Christine Anne Coverdale,M. E. Cuneo,J.-P. Davis,C. Deeney,Michael P. Desjarlais,G. L. Donovan,Christopher Joseph Garasi,Thomas A. Haill,C.A. Hall,David Lester Hanson,M. J. Hurst,Brent Manley Jones,Marcus D. Knudson,R. J. Leeper,Raymond W. Lemke,Michael G. Mazarakis,Dillon H. McDaniel,Thomas Alan Mehlhorn,Thomas J. Nash,Craig L. Olson,John L. Porter,Patrick K. Rambo,S.E. Rosenthal,Gregory Rochau,L. E. Ruggles,Chimpén Ruiz,T. W. L. Sanford,J. F. Seamen,D.B. Sinars,S. A. Slutz,Ian C. Smith,Kenneth W. Struve,William A. Stygar,Roger Alan Vesey,E.A. Weinbrecht,David Franklin Wenger,Edmund Yu +47 more
TL;DR: The Z accelerator at Sandia National Laboratories delivers ∼20MA load currents to create high magnetic fields (>1000T) and high pressures (megabar to gigabar) in a z-pinch configuration, the magnetic pressure supersonically implodes a plasma created from a cylindrical wire array, which at stagnation typically generates a plasma with energy densities of about 10MJ∕cm3 and temperatures >1keV at 0.1% of solid density as mentioned in this paper.
Journal ArticleDOI
Architecture of petawatt-class z-pinch accelerators.
William A. Stygar,M. E. Cuneo,Daniel Headley,H. C. Ives,R. J. Leeper,Michael G. Mazarakis,Craig L. Olson,John L. Porter,T. C. Wagoner,Joseph Ray Woodworth +9 more
TL;DR: In this article, an accelerator architecture that can serve as the basis of the design of petawatt-class $z$-pinch drivers is presented. But it does not include intermediate store transmission lines, multimegavolt gas switches, or a laser trigger system.
Journal ArticleDOI
Magnetically Driven Implosions for Inertial Confinement Fusion at Sandia National Laboratories
M. E. Cuneo,Mark Herrmann,Daniel Sinars,S. A. Slutz,William A. Stygar,Roger Alan Vesey,Adam B Sefkow,Gregory Rochau,Gordon A. Chandler,James E. Bailey,John L. Porter,Ryan D. McBride,Dean C. Rovang,Michael G. Mazarakis,Edmund Yu,Derek C. Lamppa,Kyle Peterson,Charles Nakhleh,Stephanie Hansen,A. J. Lopez,Mark E. Savage,Christopher Jennings,Matthew Martin,Raymond W. Lemke,Briggs W. Atherton,Ian C. Smith,P. K. Rambo,Michael Jones,M. R. Lopez,P. J. Christenson,M. A. Sweeney,Brent Manley Jones,L. A. McPherson,Eric Harding,Matthew R. Gomez,Patrick Knapp,Thomas James Awe,R. J. Leeper,Carlos L. Ruiz,Gary Wayne Cooper,Kelly Hahn,John Lee McKenney,Albert Carter Owen,G. R. McKee,G. T. Leifeste,D. J. Ampleford,Eduardo Waisman,A. J. Harvey-Thompson,R. J. Kaye,M. H. Hess,S. E. Rosenthal,M. K. Matzen +51 more
TL;DR: The magnetized liners inertial fusion (MagLIF) concept was introduced by Slutz and Vesey as mentioned in this paper, which is in the class of magneto-inertial fusion targets.
Journal ArticleDOI
Development and tests of fast 1-MA linear transformer driver stages
A.A. Kim,Michael G. Mazarakis,V. A. Sinebryukhov,B. M. Kovalchuk,V.A. Visir,S.N. Volkov,F. Bayol,A.N. Bastrikov,V.G. Durakov,S. V. Frolov,V. M. Alexeenko,Dillon H. McDaniel,William E. Fowler,K. R. LeChien,Craig L. Olson,William A. Stygar,Kenneth W. Struve,John L. Porter,Ronald M. Gilgenbach +18 more
TL;DR: In this paper, the authors present the design and test results of the most powerful, fast linear transformer driver (LTD) stage developed to date, which consists of 40 parallel RLC (resistor R, inductor L, and capacitor C) circuits called ''bricks'' that are triggered simultaneously.
Journal ArticleDOI
Review of pulsed power-driven high energy density physics research on Z at Sandia
Daniel Sinars,M. A. Sweeney,C. S. Alexander,D. J. Ampleford,Tommy Ao,John P. Apruzese,C. Aragon,D. J. Armstrong,Kevin N. Austin,Thomas James Awe,Andrew Baczewski,James E. Bailey,Kevin Baker,C. R. Ball,H. T. Barclay,S. Beatty,Kris Beckwith,Kate Bell,J. F. Benage,Nichelle Bennett,Karen Blaha,David E. Bliss,J. J. Boerner,Christopher Jay Bourdon,B. A. Branch,Justin Brown,E.M. Campbell,R. B. Campbell,D. G. Chacon,Gordon A. Chandler,K. Chandler,P. J. Christenson,M. D. Christison,E. B. Christner,Raymond C. Clay,Kyle Robert Cochrane,Anthony P. Colombo,B. M. Cook,Christine Anne Coverdale,M. E. Cuneo,J. S. Custer,Arati Dasgupta,J.-P. Davis,Michael P. Desjarlais,Daniel H. Dolan,J. D. Douglass,G. S. Dunham,Sakun Duwal,Aaron Edens,M. J. Edwards,Evstati Evstatiev,Bernardo Farfan,J. R. Fein,Ella Suzanne Field,J. A. Fisher,Timothy McGuire Flanagan,Dawn G. Flicker,M. D. Furnish,Benjamin R. Galloway,P. Gard,T. A. Gardiner,Matthias Geissel,John Giuliani,Michael E. Glinsky,M. R. Gomez,T. Gomez,Gary Grim,Kelly Hahn,Thomas A. Haill,N. D. Hamlin,J. H. Hammer,Stephanie Hansen,H. L. Hanshaw,Eric Harding,A. J. Harvey-Thompson,D. Headley,Mark Herrmann,M. H. Hess,C. Highstrete,Omar Hurricane,Brian Hutsel,Christopher Jennings,O. Johns,Drew Johnson,Mark D. Johnston,Brent Manley Jones,M. C. Jones,P. A. Jones,P. Kalita,R. J. Kamm,J. W. Kellogg,Mark L. Kiefer,Mark Kimmel,Patrick Knapp,Marcus D. Knudson,A. Kreft,George Laity,P. W. Lake,Derek C. Lamppa,W. L. Langston,J. S. Lash,K. R. LeChien,K. R. LeChien,Joshua J. Leckbee,R. J. Leeper,G. T. Leifeste,Raymond W. Lemke,William Lewis,S. A. Lewis,G. Loisel,Quinn Looker,A. J. Lopez,D. J. Lucero,Steve MacLaren,Rudolph J. Magyar,Michael A. Mangan,Matthew Martin,Thomas R. Mattsson,Maurice Keith Matzen,A. J. Maurer,Michael G. Mazarakis,Ryan D. McBride,Harry McLean,C. A. McCoy,G. R. McKee,John Lee McKenney,A. R. Miles,J. A. Mills,M. D. Mitchell,Nathan W. Moore,Clayton E. Myers,Taisuke Nagayama,G. Natoni,A. C. Owen,S. G. Patel,Kyle Peterson,Timothy D. Pointon,John L. Porter,Andrew Porwitzky,S. Radovich,Kumar Raman,Patrick K. Rambo,William D. Reinhart,G. K. Robertson,Gregory Rochau,Seth Root,D. V. Rose,Dean C. Rovang,Carlos L. Ruiz,Daniel Ruiz,D. Sandoval,Mark E. Savage,M. E. Sceiford,M. A. Schaeuble,Paul Schmit,Marius Schollmeier,Jens Schwarz,Christopher T Seagle,Adam B Sefkow,David B. Seidel,G. A. Shipley,Jonathon Shores,Luke Shulenburger,Sean Simpson,S. A. Slutz,Ian C. Smith,C. S. Speas,P. E. Specht,M. J. Speir,D. Spencer,P. T. Springer,A. M. Steiner,Brian Stoltzfus,William A. Stygar,J. Ward Thornhill,Jose A. Torres,Joshua P. Townsend,C. Tyler,Roger Alan Vesey,P. E. Wakeland,Timothy J. Webb,E. A. Weinbrecht,M. R. Weis,Dale Welch,Jack LeRoy Wise,M. Wu,David Yager-Elorriaga,A. Yu,Edmund Yu +188 more
TL;DR: The 80-TW "Z" pulsed power facility at Sandia National Laboratories as discussed by the authors is the largest pulsed-power device in the world today, and it can discharge up to 22'MJ of energy stored in its capacitor banks into a current pulse that rises in 100'ns and peaks at a current as high as 30 MA in low-inductance cylindrical targets.