LIST OF COLLABORATIVE PUBLICATIONS LABORATORY FOR LASER ENERGETICS
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Hiroshi Azechi | Takayoshi Norimatsu | Yang Li | Kentaro Nagai | R. G. Evans | Koji Takeda | Matthew Zepf | Jia Jia | Richard Stephens | Mark Sherlock | David K. Bradley | Kazuo Tanaka | Robert E. Rudd | Jon H. Eggert | Raymond F. Smith | Shon Prisbrey | Damien G. Hicks | Dave Braun | Jürgen Biener | Alex V. Hamza | G. W. Collins | T. Tanimoto | Hideaki Habara | Ryosuke Kodama | James A. Green | R. H. H. Scott | Peter A. Norreys | Malcolm G. Haines | Sabyasachi Kar | James King | T. Ma | Toshinori Yabuuchi | Farhat Beg | P. M. Nilson | Jefferson Silva Valente | J. A. Davies | Gilbert W. Collins | P. Norreys | K. Tanaka | Raymond F. Smith | R. Stephens | R. Rudd | A. Hamza | J. King | D. Hicks | D. Bradley | J. Eggert | M. Sherlock | R. Kodama | D. Braun | M. Zepf | J. Jia | H. Azechi | M. Haines | S. Prisbrey | H. Habara | T. Tanimoto | T. Yabuuchi | T. Norimatsu | F. Beg | R. Evans | P. Nilson | S. Kar | J. Biener | R. Scott | James A. Green | T. Ma | J. Davies | K. Takeda | K. Nagai | Yang Li | J. Valente | J. King
[1] S. Le Pape,et al. Laser-driven shock waves for the study of extreme matter states , 2006 .
[2] R. P. Drake,et al. Image processing of radiographs in 3D Rayleigh-Taylor decelerating interface experiments , 2009 .
[3] Paul Keiter,et al. Radiation Transport Through Inhomogeneous Materials , 2006 .
[4] R. E. Bahr,et al. Control of 2w (527nm) stimulated Raman scattering in a steep density gradient plasma , 2008 .
[5] Peter M. Celliers,et al. Capsule implosion optimization during the indirect-drive National Ignition Campaign , 2010 .
[6] D. K. Bradley,et al. Experimental studies of ICF indirect-drive Be and high density C candidate ablators , 2007 .
[7] J. D. Moody,et al. Experimental Studies of Simultaneous 351 nm and 527 nm Laser Beam Interactions in a Long Scalelength Plasma , 2003 .
[8] J. D. Moody,et al. Laser beam propagation through inertial confinement fusion hohlraum plasmas , 2006 .
[9] Peter A. Amendt,et al. Highly-resolved 2D Perturbation Simulation Studies of NIF Ignition and Omega Double-shell Targets , 2004 .
[10] Richard A. Lerche,et al. Absolute measurements of neutron yields from DD and DT implosions at the OMEGA laser facility using CR-39 track detectors , 2002 .
[11] R. J. Mason,et al. Effect of pre-pulse generated plasma on short-pulse laser-cone-wire interactions* , 2010 .
[12] Bruno Villette,et al. Rayleigh-Taylor instability and planar Feedthrough experiments With CHGe on OMEGA , 2005 .
[13] Peter A. Norreys,et al. Fast ignition relevant study of the flux of high intensity laser-generated electrons via a hollow cone into a laser-imploded plasma , 2005 .
[14] D. S. Montgomery,et al. Optical Mixing Controlled Stimulated Scattering Instabilities: Progress Toward the Control of Stimulated Raman and Brillouin Scattering Levels with Overlapping Laser Beams in ICF Targets , 2000 .
[15] John E. Foster,et al. Three-dimensional Modeling of Laboratory Jets Interacting with Obstructions , 2006 .
[16] Roger W. Falcone,et al. X-ray Thomson scattering on compressed Be plasmas , 2007 .
[17] Arthur Nobile,et al. Design and testing of cryogenic target systems , 1999 .
[18] Kunioki Mima,et al. Impact of Fast Ignition on Laser Fusion Energy Development , 2008 .
[19] Cris W. Barnes,et al. Best Practice Procedures for Making Direct Drive Cylindrical Targets for Studies of Convergent Hydrodynamics , 2002 .
[20] Peter A. Amendt,et al. Rugby-like hohlraum experimental designs for demonstrating x-ray drive enhancement , 2008 .
[21] Patrick Hartigan,et al. Shock-Clump Interaction Studies in the Laboratory , 2008 .
[22] K. A. Klare,et al. Detailed diagnosis of a double-shell collision under realistic implosion conditions , 2006 .
[23] Otto L. Landen,et al. Electronic Structure Measurement of Solid Density Plasmas using X-Ray Scattering , 2003 .
[24] Riccardo Betti,et al. A general MHD stability formulation for plasmas with flow and resistive walls , 2006 .
[25] Ramon Joe Leeper,et al. D–3He proton spectra for diagnosing shell ρR and fuel Ti of imploded capsules at OMEGA , 2000 .
[26] T. S. Perry,et al. Laboratory-astrophysics jet experiments at the-omega laser facility , 2006 .
[27] Barukh Yaakobi,et al. Techniques to determine electron and ion temperatures in D2/3He filled capsules , 2007 .
[28] Erica M. Rutter,et al. Early-Time Radiation-Hydrodynamic Modeling of Radiative Shock Experiments , 2010 .
[29] James Glimm,et al. Experiments to Produce a Hydrodynamically Unstable, Spherically Diverging System of Relevance to Instabilities in Supernovae , 2002 .
[30] Steven H. Batha,et al. Radiographic image analysis of cylindrical implosion experiments (invited) , 2001 .
[31] R. P. Drake. The design of laboratory experiments to produce collisionless shocks of cosmic relevance , 2000 .
[32] Shon Prisbrey,et al. High pressure, quasi-isentropic drive designs for material dynamics experiments on the NIF , 2010 .
[33] E. Dattolo,et al. New designs of LMJ targets for early ignition experiments , 2008 .
[34] Ramon Joe Leeper,et al. A neutron spectrometer for precise measurements of DT neutrons from 10 to 18 MeV at OMEGA and the National Ignition Facility , 2001 .
[35] L. Divol,et al. Observation of the density threshold behavior for the onset of stimulated Raman scattering in high-temperature hohlraum plasmas. , 2009, Physical review letters.
[36] Douglass Schumacher,et al. The shaped critical surface in high intensity laser plasma interactions , 2010 .
[37] R. P. Drake,et al. Improving Target Characterization for Laboratory Astrophysics Experiments , 2010 .
[38] Eduardo M. Bringa,et al. High-pressure, high-strain-rate lattice response of shocked materials , 2003 .
[39] Hiroshi Azechi,et al. Development of a gated scintillation fiber neutron detector for areal density measurements of inertial confinement fusion capsules , 2003 .
[40] Alexis Casner,et al. Diagnosing indirect-drive inertial-confinement-fusion implosions with charged particles , 2010 .
[41] Richard A. Lerche,et al. Observation of DT fusion gamma rays with a streak camera-based gas Cherenkov detector , 2004 .
[42] Roger W. Falcone,et al. Development of an 18 keV X-Ray Thomson Scattering Source for the Characterization of Dense States of Matter , 2010 .
[43] D. K. Bradley,et al. High-precision measurements of the diamond Hugoniot in and above the melt region , 2008 .
[44] J. Frenje,et al. The coincidence counting technique for orders of magnitude background reduction in data obtained with the magnetic recoil spectrometer at OMEGA and the NIF. , 2011, The Review of scientific instruments.
[45] Riccardo Betti,et al. A general formulation of magnetohydrodynamic stability including flow and a resistive wall , 2008 .
[46] J. M. Soures,et al. Fusion Laser Engineering , 2004 .
[47] Paul A. Jaanimagi,et al. Cylindrical implosion experiments using laser direct drive , 1998 .
[48] Gilbert W. Collins,et al. Dissociation of liquid silica at high pressures and temperatures. , 2006, Physical review letters.
[49] Philippe Nicolai,et al. Modelling of hydrodynamics instabilities including the non local heat transport , 2007 .
[50] J. D. Moody,et al. Studies of Linear and Non-Linear Beam Transmission in Plasmas Driven with Multiple Laser Beams , 2003 .
[51] Gilbert W. Collins,et al. Diamond at 800 GPa. , 2009, Physical review letters.
[52] T. S. Perry,et al. Supersonic Jet Experiments at Omega: a validation test bed for complex hydrodynamics, and plans for a larger-scale jet experiment at Z , 2002 .
[53] Arthur Nobile,et al. Shock propagation, preheat, and x-ray burnthrough in indirect-drive inertial confinement fusion ablator materials , 2004 .
[54] Peter A. Norreys,et al. Modeling of laser-driven proton radiography of dense matter , 2008 .
[55] T. S. Perry,et al. Material deformation dynamics at ultrahigh pressures and strain rates , 2010 .
[56] Jeffrey A. Koch,et al. Modeling NLTE effects in thin-shell direct-drive Omega capsule implosions , 2007 .
[57] T. S. Perry,et al. Recent Experimental Results and Modelling of High-Mach-Number Jets and the Transition to Turbulence , 2005 .
[58] T. C. Sangster,et al. Stopping Power and Secondary Nuclear Production in OMEGA Implosions , 2002 .
[59] Peter A. Amendt,et al. Radiochemical tracers as a mix diagnostic for the ignition double-shell capsule , 2008 .
[60] Erik Lefebvre,et al. Single-shot divergence measurements of a laser-generated relativistic electron beam , 2010 .
[61] M. Busquet,et al. Planar radiative shock experiments and their comparison to simulations , 2007 .
[62] James M. Stone,et al. Zeus-2D Simulations of Laser-Driven Radiative Shock Experiments , 2005 .
[63] Peter A. Amendt,et al. Monoenergetic proton backlighter for measuring E and B fields and for radiographing implosions and high-energy density plasmas (invited) , 2006 .
[64] Arthur Nobile,et al. Measuring the character of mix in directly driven ICF implosions with pure tritium gas and a deuterated shell , 2006 .
[65] G H Miller. The National Ignition Facility: Experimental Capability , 2003 .
[66] Robert Heeter,et al. Characterization of Non-LTE Gold Plasmas in Controlled Conditions with Finite Tr , 2003 .
[67] Steven H. Batha,et al. Richtmyer-Meshkov Experiments on the Omega Laser , 2005 .
[68] Troy W. Barbee,et al. Core Temperature and Density Gradients in ICF , 2004 .
[69] Robert Heeter,et al. Hot Hohlraums: Coupling of high power lasers to small, hot targets* , 2004 .
[70] Peter A. Amendt,et al. Experimental study of fill-tube hydrodynamic effects on implosions using capsules with plastic stalks , 2006 .
[71] Derek W. Schmidt,et al. Calculations for Omega symmetry capsule implosion experiments in $\sim $0.2 NIF scale high temperature hohlraums , 2007 .
[72] Hiroaki Nishimura,et al. Spectroscopic Determination of Core Gradients in Inertial Confinement Fusion Implosions , 2002 .
[73] Raymond C. Elton,et al. Spectroscopic Measurements of Target Preheating on OMEGA , 2000 .
[74] R. Paul Drake. Supernova Hydrodynamics on the Omega Laser , 2001 .
[75] Paul T. Springer,et al. Filamentation, Deflection, Scatter, and Crossed Beam Energy Transfer in High Temperature Hohlraums , 2003 .
[76] M D Rosen,et al. Optical transmission of glass for the National Ignition Facility near backscatter imagers under x-ray exposure. , 2008, The Review of scientific instruments.
[77] B. E. Blue,et al. Improved pinhole-apertured point-projection backlighter geometry , 2004 .
[78] Barry E. Schwartz,et al. Capsule-areal-density asymmetries inferred from 14.7-MeV deuterium–helium protons in direct-drive OMEGA implosions , 2003 .
[79] Richard R. Freeman,et al. Development of time resolved x-ray spectroscopy in high intensity laser-plasma interactions , 2006 .
[80] Peter A. Amendt,et al. Experimental measurement of Au M-band flux in indirectly-driven double-shell implosions , 2005 .
[81] T. S. Perry,et al. Supersonic jet experiments on Sandia National Laboratories' Z accelerator , 2005 .
[82] Robert G. Watt,et al. Direct-Drive Cylindrical Implosions on the OMEGA Laser , 1998 .
[83] K. Piston,et al. Progress on the development of a single line of sight x-ray framing camera , 2004 .
[84] L J Suter,et al. Direct measurements of an increased threshold for stimulated brillouin scattering with polarization smoothing in ignition hohlraum plasmas. , 2008, Physical review letters.
[85] Gregory A. Rochau,et al. Modification of a Laser Hohlraum Spectrum via a Mid-Z Wall Liner* , 2004 .
[86] M. J. May,et al. Determination of the Charge State Distributions from X-ray Spectra in Au Plasmas at the OMEGA Laser , 2006 .
[87] T. S. Perry,et al. Nonlinear Rayleigh Taylor Hydrodynamics on the Omega laser , 2002 .
[88] R. P. Drake,et al. Michigan Fabrication and Assembly Techniques for Rayleigh-Taylor Modal Supernova-Relevant Experiments , 2005 .
[89] L. John Perkins. The Physics of Advanced High-Gain Targets for Inertial Fusion Energy , 2010 .
[90] R. P. Drake,et al. Laser-Driven Hydrodynamic Experiments in the Turbulent Plasma Regime: from OMEGA to NIF , 2003 .
[91] J. M. Mack,et al. Effects of $^{3}$He Addition on Implosion of DT Capsules on Omega , 2007 .
[92] Ian L Tregillis,et al. Tuning NIF drive symmetry with symmetry capsules , 2008 .
[93] Jose Milovich,et al. Development of the re-emit technique for ICF foot symmetry tuning for indirect drive ignition on NIF , 2007 .
[94] Steven James,et al. Spectroscopic Measurements of ICF Capsules Doped with Hi-Z Impurities. , 2006 .
[95] Peter A. Amendt,et al. Multimode short-wavelength perturbation growth studies for the National Ignition Facility double-shell ignition target designs , 2004 .
[96] Peter Beiersdorfer,et al. Determination of the Electron Temperature of a Hot Gold Plasma Utilizing High-Resolution X-Ray Spectroscopy of the L-Band Emission , 2005 .
[97] Barukh Yaakobi,et al. Materials Science at the Extremes of Pressure and Strain Rate , 2003 .
[98] Steven H. Batha,et al. Multimode seeded Richtmyer-Meshkov mixing in a convergent, compressible, miscible plasma system , 2003 .
[99] Harry Rieger,et al. Diode-pumped Nd:YAG laser with 38 W average power and user-selectable, flat-in-time subnanosecond pulses. , 2007, Applied optics.
[100] Peter Beiersdorfer,et al. Investigation of M-band Gold Spectra in Hot Halfraums at HELEN and OMEGA and in EBIT plasmas , 2003 .
[101] Thomas W. Phillips,et al. High-energy x-ray source generation by short-pulse high-intensity lasers , 2004, SPIE Optics + Photonics.
[102] R. P. Drake,et al. Physical Vapor Deposition Chamber for Coating Microchannel Plates in X-Ray Radiography , 2010 .
[103] T. S. Perry,et al. TWO-DIMENSIONAL BLAST-WAVE-DRIVEN RAYLEIGH–TAYLOR INSTABILITY: EXPERIMENT AND SIMULATION , 2009 .
[104] Gilbert W. Collins,et al. Shock compressing diamond to a conducting fluid. , 2004, Physical review letters.
[105] S. Skupsky,et al. Measurements of fuel and shell areal densities of OMEGA capsule implosions using elastically scattered protons , 2002 .
[106] Andrew G. MacPhee,et al. Experimental observations of transport of picosecond laser generated electrons in a nail-like target , 2007 .
[107] M. A. Meyersa,et al. Laser-induced shock compression of monocrystalline copper : characterization and analysis , 2003 .
[108] Riccardo Tommasini,et al. Comparison of genetic-algorithm and emissivity-ratio analyses of image data from OMEGA implosion cores. , 2008, The Review of scientific instruments.
[109] Christian Stoeckl,et al. Calibration of a Thomson parabola ion spectrometer and Fujifilm imaging plates for energetic protons, deuterons, and alpha particles , 2010 .
[110] D. Gontier,et al. Diagnostics for laser plasma interaction in the target chamber of the LIL , 2005 .
[111] Bruce A. Hammel,et al. Dense matter characterization by X-ray Thomson scattering , 2001 .
[112] Laurent Divol. Predictive modeling of Omega Laser Plasma Interaction Experiment , 2007 .
[113] A. B. Reighard. Creating a Driven, Collapsed Radiative Shock in the Laboratory , 2006 .
[114] Peter A. Amendt,et al. HOHLRAUM RADIATION DRIVE MEASUREMENTS ON THE OMEGA LASER , 1997 .
[115] Jon H. Eggert,et al. Measurement of shock wave density using quantitative x-ray phase contrast imaging , 2007 .
[116] Paul Keiter,et al. Target Fabrication: A View from the Users , 2004 .
[117] Hans J. Herrmann,et al. Investigation of the DT Fusion Gamma Spectrum with an Energy Thresholding Gas Cherenkov Detector , 2010 .
[118] Peter Pazuchanics,et al. The National Ignition Facility neutron imaging system. , 2008, The Review of scientific instruments.
[119] Marco Borghesi,et al. TI K-alpha radiography of imploding CU doped CD shells and coned shells , 2004 .
[120] S. H. Glenzer,et al. Same-shot x-ray Thomson scattering and streaked imaging of radiative shock experiments at Omega , 2010, ICOPS 2011.
[121] R. P. Drake,et al. Rayleigh–Taylor growth at decelerating interfaces , 2002 .
[122] R. P. Drake,et al. Measurement of Emission from a Radiative Shock , 2010 .
[123] L. Divol,et al. Intensity limits for propagation of 0.527 microm laser beams through large-scale-length plasmas for inertial confinement fusion. , 2005, Physical review letters.
[124] T. S. Perry,et al. Modeling of Collimating and Turbulent Jets at Omega , 2004 .
[125] Robert Heeter,et al. Plasma filling in reduced-scale hohlraums irradiated with multiple beam cones , 2006 .
[126] Peter A. Amendt,et al. National Ignition Facility scale hohlraum asymmetry studies by thin shell radiography , 2001 .
[127] R. P. Drake,et al. The Formation of a Cooling Layer in a Partially Optically Thick Shock , 2007 .
[128] L. A. Welser,et al. Self-consistent analysis of X-ray line spectra and monochromatic images in imploded cores at OMEGA , 2001 .
[129] P Bell,et al. A hardened gated x-ray imaging diagnostic for inertial confinement fusion experiments at the National Ignition Facility. , 2010, The Review of scientific instruments.
[130] Jonathan Workman,et al. Fluorescence concerns in high energy x-ray yield scaling and imaging studies , 2001 .
[131] Abbas Nikroo,et al. Composition and Structural Studies of Strong Glow Discharge Polymer Coatings , 2002 .
[132] R. P. Drake,et al. Observation of a hydrodynamically driven, radiative-precursor shock. , 2001, Physical review letters.
[133] R. P. Drake,et al. Hydrodynamic Experiments that Simulate Jets in Supernova Explosions , 2003 .
[134] Sushil J. Louis,et al. Multiobjective method for fitting pinhole image intensity profiles of implosion cores driven by a Pareto genetic algorithm , 2006 .
[135] Jeffrey A. Koch,et al. Calibration of National Ignition Facility neutron detectors in the energy range E<14 MeV , 2004 .
[136] C. Sorce,et al. Omega Dante Soft X-Ray Spectrometer Upgrade and Component Calibrations to 20 keV , 2005 .
[137] Richard D. Petrasso,et al. Tests of the hydrodynamic equivalence of direct-drive implosions with different D2 and He3 mixtures , 2006 .
[138] J. M. Mack,et al. Improved gamma bang time measurements on Omega , 2006 .
[139] Wei,et al. Anomalous Divergence of Laser-Generated Hot Electrons Generated in a Cone Geometry , 2009 .
[140] Richard A. Lerche,et al. Atomic mix in directly driven inertial confinement implosions , 2011 .
[141] R. Paul Drake,et al. Viewing System Design for Target Fabrication Facility , 2003 .
[142] Peter A. Amendt,et al. Design of an Omega Experiment to Diagnose Ablator Burn-through with d-3He Proton Yield and Spectra , 2006 .
[143] Peter A. Amendt,et al. Experimental measurement of interface trajectories in an indirectly-driven planar double-shell geometry , 2005 .
[144] K. A. Klare,et al. Rayleigh–Taylor spike evaporation , 2001 .
[145] J. D. Moody,et al. Drive and Symmetry Experiments in Ignition-Scale Hohlraums , 2010 .
[146] Max Tabak,et al. Hydrodynamic assembly for Fast Ignition , 2007 .
[147] John F. Seely,et al. Krypton K-Shell X-Ray Spectra Recorded by the HENEX Spectrometer , 2006 .
[148] Jon H. Eggert,et al. Systematic uncertainties in shock-wave impedance-match analysis and the high-pressure equation of state of Al , 2005 .
[149] Peter Norreys. New science opportunities in multi-kJ, petawatt laser facilities relevant to fast ignition , 2005 .
[150] Peter A. Amendt,et al. The creation of electric fields within plasma shock fronts , 2010 .
[151] Troy W. Barbee,et al. Analysis of the spatial structure of inertial confinement fusion implosion cores at OMEGA , 2003 .
[152] C. Sorce,et al. Absolute x-ray yields from laser-irradiated germanium-doped low-density aerogels , 2009 .
[153] Eric G. Blackman. Distinguishing Propagation vs. Launch Physics of Astrophysical Jets and the Role of Experiments , 2007 .
[154] V. A. Smalyuk,et al. Monoenergetic Proton Radiography Observations of E and B Field Evolution Outside Imploding, Direct-Drive ICF Capsules , 2007 .
[155] L. Divol,et al. Laser-Coupling in foam- and gas-fileld Hohlraums , 2004 .
[156] D. K. Bradley,et al. Diamond Shock Equation-of-State Measurements at the Melt Transition , 2002 .
[157] P. B. Radha,et al. Diagnostic use of secondary proton spectra for D2-filled inertial confinement fusion targets (abstract) , 2001 .
[158] Perry M. Bell,et al. X-Ray Backlighting for the National Ignition Facility , 2000 .
[159] S Roberts,et al. Effects of fuel-shell mix upon direct-drive, spherical implosions on OMEGA. , 2002, Physical review letters.
[160] D. H. Kalantar,et al. Modeling Planetary Interiors in Laser Based Experiments Using Shockless Compression , 2007 .
[161] R. P. Drake,et al. Stellar explosions, instabilities, and turbulence , 2009 .
[162] W. E. Ormand,et al. Prospects for Investigating Unusual Nuclear Reaction Environments Using the National Ignition Facility , 2003 .
[163] Arthur Nobile,et al. Anomalous yield reduction in direct-drive deuterium/tritium implosions due to H3e additiona) , 2009 .
[164] Ramon Joe Leeper,et al. Time and spatially resolved measurements of x-ray burnthrough and re-emission in Au and Au:Dy:Nd foils , 2003 .
[165] Alan S. Wan,et al. The ablation-front Rayleigh-Taylor dispersion curve in indirect drive , 2001 .
[166] Joyce A. Guzik,et al. Direct drive double shell target implosion hydrodynamics on OMEGA using offset pointing , 2004 .
[167] James C. Weaver,et al. High-Z Coatings Produce Significant Improvements in the Fusion Burn of Laser Driven ICF Implosions , 2005 .
[168] T. S. Perry,et al. Experimental study of the interaction of a strong shock with a spherical density inhomogeneity , 2001 .
[169] Yasuhiko Sentoku,et al. Ionization and Z Effects in Cone Wire Experiments , 2010 .
[170] Paul A. Jaanimagi,et al. Transport of energy by ultraintense laser-generated electrons in nail-wire targets , 2008 .
[171] J. F. Hansen,et al. Modeling of multi-interface, diverging, hydrodynamic experiments for the National Ignition Facility , 2008 .
[172] M J Moran,et al. CVD Diamond Detector Stability Issues for Operation at the National Ignition Facility , 2003 .
[173] S. H. Glenzer,et al. Measurement of hard x-ray bremsstrahlung emission from indirectly driven capsules at peak of the laser drive , 2010 .
[174] William J. Hogan,et al. The National Ignition Facility Project: An Update , 2000 .
[175] Peter A. Amendt,et al. Role of laser beam geometry in improving implosion symmetry and performance for indirect-drive inertial confinement fusion , 2003 .
[176] R. E. Turner,et al. Comparison of simulations and experimental results from ICF implosions using capsules of varying surface roughness. , 2005 .
[177] S Chandrasekhar,et al. A hybrid electroabsorption modulator device for generation of high spectral-efficiency optical modulation formats. , 2008, Optics express.
[178] Wolf D. Seka,et al. OPTICAL MIXING CONTROLLED STIMULATED SCATTERING INSTABILITIES , 2001 .
[179] David C. Eder,et al. Debris mitigation in pinhole-apertured point-projection backlit imaging , 2004 .
[180] Robert Heeter,et al. Radiative Effects on Direct Drive Implosion Temperatures , 2007 .
[181] Steven H. Batha,et al. Observation of mix in a compressible plasma in a convergent cylindrical geometry , 2001 .
[182] Hye-Sook Park,et al. High energy K-$\alpha $ radiography using high-energy, high-intensity, short-pulse lasers , 2005 .
[183] L. Boireau,et al. Collapsing radiative shock measurements in xenon on the omega laser , 2006 .
[184] J. D. Moody,et al. Prospects for high-gain, high yield National Ignition Facility targets driven by 2ω (green) light , 2004 .
[185] Takuma Endo,et al. X-ray source studies for radiography of dense matter , 2009 .
[186] R. D. Petrasso. Monoenergetic Proton Radiography of Electromagnetic Fields and Areal Density in Implosions and in Laser-Plasma-Interaction Experiments$^{\ast ,\dag}$ , 2007 .
[187] Jeffrey A. Koch,et al. Energy-resolved neutron imaging for inertial confinement fusion , 2003 .
[188] Hui Chen,et al. A Comparison of Ponderomotive Scaling to Hot Electron Slope Temperatures inferred from Bremsstrahlung Measurements in Short-pulse Laser Experiments , 2008 .
[189] J. D. Moody,et al. Comparison of charge coupled device vs film readouts for gated micro-channel plate cameras , 2001 .
[190] Jens Schwarz,et al. Development of an in situ peak intensity measurement method for ultraintense single shot laser-plasma experiments at the Sandia Z petawatt facility , 2006 .
[191] Cris W. Barnes,et al. X-ray Spectroscopic Characterization of Plasma for a Charged-Particle Energy-Loss Experiment , 2000 .
[192] Gilbert W. Collins,et al. Hugoniot data for helium in the ionization regime. , 2008, Physical review letters.
[193] E. Williams,et al. New findings on the control of filamentation of intense laser beams propagating in underdense plasma , 2005 .
[194] M G Haines,et al. Proton probe measurement of fast advection of magnetic fields by hot electrons , 2010, Physical review letters.
[195] B. Remington. Scaling extreme astrophysical phenomena to the laboratory - a tutorial , 2007 .
[196] P. B. Radha,et al. Nuclear measurements of fuel-shell mix in inertial confinement fusion implosions at OMEGAa) , 2007 .
[197] Jeffrey A. Koch,et al. The CVD Diamond Detector As A Neutron Spectrometer For ICF Implosions , 2005 .
[198] Michael Herrmann,et al. New Developments in Cone-Focussed Fast Ignition , 2001 .
[199] D. S. Bailey,et al. High-Gain Shock Ignition on the National Ignition Facility , 2010 .
[200] Jochen Schein. Enhanced hohlraum radiation drive through reduction of wall losses with high-Z mixture 'cocktail' wall materials , 2006 .
[201] Jochen Schein,et al. Indirect Drive Holhraum Performance Using Cocktail Materials , 2005 .
[202] David H. Cohen,et al. Numerical Modeling Of Hohlraum Radiation Conditions: Spatial And Spectral Variations Due To Sample Position, Beam Pointing, And Hohlraum Geometry , 2005 .
[203] B. Remington,et al. Laser-Driven Quasi-Isentropic Compression of Samples in the Solid-State , 2004 .
[204] R. P. Drake,et al. Design of jet-driven, radiative-blast-wave experiments for 10 kJ class lasers , 2009 .
[205] A. Link,et al. Nail-Like Targets for Laser-Plasma Interaction Experiments , 2008, IEEE Transactions on Plasma Science.
[206] J. D. Kilkenny,et al. Active image readout system for extreme neutron envirorments for NIF , 2010 .
[207] Peter A. Amendt,et al. Assessing the prospects for achieving double-shell ignition on the National Ignition Facility using vacuum hohlraums , 2007 .
[208] Roberto Mancini,et al. Diagnosing plasma gradients using spectral line shapes , 2000 .
[209] Tatiana A. Pikuz,et al. X-ray sources for radiography of warm dense matter , 2008 .
[210] K. Fournier,et al. Investgation of the Ionization Equalibrium of Highly Charged Gold for ICF Experiments , 2001 .
[211] J. Jaques,et al. Characterization of the Dynamical Processes in All-Optical Signal Processing Using Semiconductor Optical Amplifiers , 2008, IEEE Journal of Selected Topics in Quantum Electronics.
[212] Peter A. Amendt,et al. Instability modeling for NIF ignition targets and Omega experiments , 2002 .
[213] Gerald A. Navratil,et al. Characteristics and Contributions of the Three Major United States Toroidal Magnetic Fusion Facilities , 2005 .
[214] A. B. Langdon,et al. Modeling the nonlinear saturation of stimulated Brillouin backscatter in laser heated plasmas , 2003 .
[215] S R Nagel,et al. Characterization of high-intensity laser propagation in the relativistic transparent regime through measurements of energetic proton beams. , 2009, Physical review letters.
[216] L. J. Perkins,et al. The Application of Shock Ignition to Various High Gain Target Concepts. , 2007 .
[217] J. A. Frenje,et al. First measurements of the absolute neutron spectrum using the magnetic recoil spectrometer at OMEGA (invited). , 2008, The Review of scientific instruments.
[218] Linn D. van Woerkom. Intense Laser Plasma Interactions on the Road to Fast Ignition , 2007 .
[219] John D. M. Edwards,et al. Thomson scattering from a shock front , 2006 .
[220] Jonathan Workman,et al. Optimizing area-backlighter performance in a difficult geometry , 2003 .
[221] Alexis Casner,et al. Indirect drive ablative Rayleigh–Taylor experiments with rugby hohlraums on OMEGA , 2009 .
[222] Richard A. Lerche,et al. Gamma-ray-based fusion burn measurements , 2000 .
[223] D Milam,et al. Modeling of frequency doubling and tripling with measured crystal spatial refractive-index nonuniformities. , 2001, Applied optics.
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