HAPL Bibliography
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Topic1st AuthorYearAuthorsTitleCitation
Chamber Materials & EngineeringAbdelall2006F. F. Abdelall, S. I. Abdel-Khalik, D. L. Sadowski, S. Shin, and M. YodaOn the Rayleigh-Taylor Instability for Confined Liquid Films with Injection Through the Bounding SurfacesInt. J. Heat Mass Transfer 49 (7-8), 1529-1546 (2006).
Target PhysicsAglitskiy2002Y. Aglitskiy, A.L. Velikovich, M. Karasik, V. Serlin, C.J. Pawley, A.J. Schmitt, S.P. Obenschain, A.N. Mostovych, J.H. Gardner, and N. MetzlerDirect Observation of Mass Oscillations due to Ablative Richtmyer-Meshkov Instability and Feedout in Planar Plastic TargetsPhys. Plasmas 9, 2264 (2002).
Target PhysicsAglitskiy2006Y. Aglitskiy, N. Metzler, M. Karasik, V. Serlin, A. L. Velikovich, S. P. Obenschain, A.N. Mostovych, A. J. Schmitt, J. Weaver, J. H. Gardner, and T. WalshPerturbation evolution started by Richtmyer-Meshkov instability in planar laser targetsPhys. Plasmas 13, 080703 (2006).
Target PhysicsAglitskiy2008Y. Aglitskiy, M. Karasik, A.L. Velikovich, N. Metzler, S. Zalesak, A.J. Schmitt, J.H. Gardner, V. Serlin, J. Weaver and S.P. ObenschainClassical and ablative Richtmyer-Meshkov instability and other ICF-relevant plasma flows diagnosed with monochromatic x-ray imagingPhysica Scripta T132, 014021 (2008).
Target PhysicsAglitskiy2009Y. Aglitskiy, M. Karasik, A. L. Velikovich, V. Serlin, J. L. Weaver, A. J. Schmitt, S. P. Obenschain, N. Metzler, S. T. Zalesak, J. H. Gardner, J. Oh, and E. C. HardingStability of a shock-decelerated ablation frontPhysical Review Letters 103 085002 (2009).
Target PhysicsAglitskiy2010Y. Aglitskiy, A. L. Velikovich, M. Karasik, N. Metzler, S. T. Zalesak, A. J. Schmitt, L. Phillips, J. H. Gardner, V. Serlin, J. L. Weaver, and S. P. ObenschainBasic hydrodynamics of Richtmyer-Meshkov-type growth and oscillations in the ICF-relevant conditionsPhil. Trans. R. Soc. A 2010, 368, 1739-1768 (2010).
Chamber Materials & EngineeringAndersen2006M. Andersen, S. Sharafat, and Nasr M. GhoniemThermo-Mechanical Analysis of a Micro-Engineered Tungsten-Foam Armored IFE FWFusion Engineering and Design 81: 1639-1645 (2006)
Chamber Materials & EngineeringAndersen2007Andersen, M., and Ghoniem, N.M.Surface Roughening Mechanisms for Tungsten Exposed to Laser, Ion, and X-ray PulsesFusion Science and Technology 52(3), 579 - 583 (Oct 2007).
Chamber Materials & EngineeringAndersen2008Andersen M., Ghoniem, N., and Takahashi, A.Saturation of Surface Roughening Instabilities by Plastic DeformationApplied Physics Letters, 92(8) (February 2008).
Chamber Materials & EngineeringAnderson2006M. Andersen, S. Sharafat, N. GhoniemThermo-mechanical analysis of a micro-engineered tungsten-foam armored IFE FWFusion Engineering and Design 81 (8-14) February 2006, 1639-1645.
Driver TechnologyAoyama2009Aaron Aoyama, James Blanchard, John Sethian, Nasr Ghoniem, Shahram SharafatThermo-Mechanical Analysis of the Hibachi Foil for the Electra Laser SystemFusion Science & Technology 56 (1) 2009, 435-440.
Blanket & Systems Design & EngineeringAristova2008M. Aristova, C.A. GentileComparative Study to Evaluate Candidate Materials for Tritium Production in a Direct Drive IFE ReactorFusion Science and Technology. Vol. 56, Num. 1. pp 475 – 477, August 2008.
Target PhysicsBates2010J. W. Bates, A. J. Schmitt, D. E. Fyfe, S. P. Obenschain, and S. T. ZalesakSimulations of high-gain shock-ignited inertial-confinement-fusion implosions using less than 1 MJ of direct KrF laser energyJournal of High Energy Density Physics (2010).
Chamber Materials & EngineeringBlanchard2003J. BlanchardPractical Considerations for Thermal Stresses Induced by Surface HeatingFus Sci Tech, 44 (1), 2003, 101
Chamber Materials & EngineeringBlanchard2003J. BlanchardElastic Waves Induced by Surface Heating in a Half-SpaceJ. Appl. Mech, 70 (4), 2003, 613
Chamber Materials & EngineeringBlanchard2005James P. Blanchard, Carl J. MartinDevelopment of a Dry Wall Concept for Laser IFE ChambersFusion Science & Technology 47 (3) 2005, 585-590.
Chamber Materials & EngineeringBlanchard2005J. Blanchard and C. MartinThermomechanical effects in a laser IFE first wallJ Nuc Mat, 347 (3), 2005, 192
Blanket & Systems Design & EngineeringBlanchard2007J. P. Blanchard and R. Raffray 
Laser Fusion Chamber DesignFusion Science & Technology 52 (3) October 2007, 440-444.
Chamber Materials & EngineeringBlanchard2007James P. Blanchard, Jens ConzenAn Upper Bound for Stress Waves Induced by Volumetric Heating in IFE Chamber WallsFusion Science and Technology 52 (3) 2007, 506-510.
Chamber Materials & EngineeringBlanchard2009J. Blanchard, Q. Hu, and N. GhoniemA Unified Model for Ion Deposition and Thermomechanical Response in Dry Wall Laser IFE ChambersFus Sci Tech, 56, 2009, 341
Target PhysicsBodner2000S. Bodner, D. Colombant, A. Schmitt, and M. KlapischHigh Gain Direct-Drive Target Design for Laser FusionPhys. Plasmas 7, 2298 (2000).
Target Fabrication and PropertiesBoehm2009K.J. BoehmNumerical and Experimental Analysis of Using a Fluidized Bed as a Prototypic Mass Production Device for IFE Target LayeringProceedings of the 23rd IEEE/NPSS Symposium on Fusion Engineering, 2009
Target Fabrication and PropertiesBoehm2009K.J. Boehm, A.R Raffray N. B. Alexander, D.T. Frey,D. T. GoodinNumerical and Experimental Analysis of a Fluidized Bed for IFE Target LayeringFusion Sci. Technol. 56, 1, 422
Target Fabrication and PropertiesBousquet2009J. T. Bousquet, J. F. Hund, D. T. Goodin, N. B. AlexanderAdvancements in Glow Discharge Polymer (GDP) Coatings for Mass ProductionFusion Sci. Technol. 55, 4, 446
Target Fabrication & PropertiesBozek2007A. S. Bozek, N. B. Alexander, D. Bittner, L. Carlson, T. J. Drake, G.W. Flint, D. T. Frey, D. T. Goodin, S. Grant, J. F. Hund, J. D. Kilkenny, R. W. Petzoldt, D. G. Schroen, R. W. Stemke, J. E. Streit, B. A. VermillionThe production and delivery of inertial fusion energy power plant fuel: The cryogenic targetFusion Engineering and Design, 82, Issues 15-24, October 2007, 2171-2175.
Chamber Materials & EngineeringBurchell2007Timothy D. Burchell and Lance L. SneadThe effect of neutron irradiation damage on the properties of grade NBG-10 graphiteJournal of Nuclear Materials 371 (2007) 18–27.
Driver TechnologyBurns2009P. M. Burns et al.Electra: An Electron Beam Pumped KrF Rep-Rate Laser System for Inertial Fusion EnergyFusion Science & Technology 56 (1) 2009, 346-351.
Target InjectionCarlson2007Lane Carlson, Neil Alexander, Graham Flint, Dan Goodin, Thomas Lorentz, Ronald Petzoldt and Mark TillackTarget Tracking and Engagement for Inertial Fusion Energy: A Tabletop DemonstrationFusion Science & Technology 52 (3), Oct. 2007, 478-482.
Target InjectionCarlson2008L. C. Carlson, M. S. Tillack, T. Lorentz, N. B. Alexander, G. W. Flint, D. T. Goodin and R. W. PetzoldtGlint system integration into an IFE target tracking and engagement demonstrationInertial Fusion Science and Applica-tions 2007, Journal of Physics: Conference Series 112 (2008) 032039.
Target InjectionCarlson2009L. C. Carlson, M. S. Tillack, J. Stromsoe, N. A. Alexander, D. T. Goodin and R. W. PetzoldtImproving the Accuracy of a Target Engagement DemonstrationFusion Science and Technology 56 (1) July 2009, 409-416.
Target InjectionCarlson2010L. C. Carlson, M. S. Tillack, J. Stromsoe, N.B. Alexander, G.W. Flint, D.T. Goodin, R.W. PetzoldtCompleting the Viability Demonstration of Direct-Drive IFE Target Engagement and Assessing Scalability to a Full-Scale Power PlantTransactions on Plasma Science 38 (3) March 2010, 300-305.
Target Fabrication & PropertiesCarlson2010L. J. Carlson, D. T. Goodin and M. S. TillackA Method for Characterizing and Improving the Damage Resistance of the Outer Metallic Coatings on Inertial Fusion Energy TargetsIEEE Transactions on Plasma Science 38 (3), March 2010 (448-451).
Driver TechnologyChang2005J. H. Chang, C.A. Gentile, C. Priniski, J. SethianDesign and Numerical Stress Analysis of Silicon Membrane Hibachi WindowsSOFE 2005. IEEE Article 1-4244-0150-x/06.
Target InjectionChristensen2005B. Christensen, A. R. Raffray, and M. S. TillackThermal Loading of a Direct Drive Target in Rarefied GasFusion Science and Technology, 47, 4 (2005) 1175-1179.
Target InjectionChristensen2005B. Christensen, A. R. Raffray, and M. S. TillackModeling DT Vaporization and Melting in a Direct Drive TargetFusion Science and Technology, 47, 4 (2005) 1180-1186.
Chamber Materials & EngineeringCipiti2005B.B. Cipiti, G.L. KulcinskiHelium and deuterium implantation in tungsten at elevated temperaturesJournal of Nuclear Materials 347 (3) 15 December 2005, 298-306
Target PhysicsColombant2007D. Colombant, A. J. Schmitt, S. P. Obenschain, S. T. Zalesak, A. L. Velikovich, J. W. Bates, D. E. Fyfe, J. H. Gardner, and W. ManheimerDirect-drive laser target designs for sub-MegaJoule energiesPhys. Plasmas 14, 056317 (2007)
Chamber Materials & EngineeringCompan2007J. Compan, T. J. Renk, T. Hirai, and J. LinkeReduction of preferential erosion of carbon fibre composites under intense transient heat pulsesPhysica Scripta T128, 246-249 (2007).
Target Fabrication and PropertiesCzechowicz2007D. G. Czechowicz, C. Chen, J. A. Dorman, D.A. SteinmanInvestigations to Remove Domes from Plastic Shells by PolishingFusion Sci. Technol. 51, 4, 600
Chamber Materials & EngineeringDowning2007Downing, R. G., Parker, R., Scelle, R., Parikh, N.Helium Retention in Nano-Cavity Tungsten Implanted with Helium Threat Spectrum Mimicking IFE Reactor ConditionsTrans. Am. Nucl. Soc. 97 (2007), 317-318.
Chamber DynamicsDragojlovic2004Z. Dragojlovic and F. Najmabadi Simulation of IFE Chamber Dynamics Response by a Second Order Godunov Method with Arbitrary GeometryProc. Int. Symp. on Inertial Fusion Science & Applications, IFSA 2003 (Monterey, CA, September 2002), 850-853, 2004.
Chamber DynamicsDragojlovic2005Z. Dragojlovic and F. NajmabadiEffects of Chamber Geometry and Gas Properties on Hydrodynamic Evolution of IFE ChambersFusion Science & Technology 47 (2005) 1152-1159.
Chamber DynamicsDragojlovic2006Z. Dragojlovic and F. Najmabadi, and M. DayAn Embedded Boundary Method for Viscous, Conducting Compressible FlowJournal of Computational Physics, 216 (2006) 37-51.
Chamber Materials & EngineeringEl-Awady2008El-Awady, J. A., Biner, S. B., and Ghoniem N.M.A Self-Consistent Boundary Element, Parametric Dislocation Dynamics Formulation of Plastic Flow in Finite VolumesJournal of the Mechanics and Physics of Solids, 56(5):2019 - 2035 (May 2008).
Chamber Materials & EngineeringEl-Awady2009El-Awady, J. A., Wen, M., and Ghoniem N.M.The Role of the Weakest-Link Mechanism in Controlling the Plasticity of MicropillarsJournal of the Mechanics and Physics of Solids, 57(1):32 - 50 (January 2009).
Target InjectionFrey2005D.T. Frey, D.T.Goodin, R.W. Stemke, R.W. Petzoldt, T .J. Drake, W. Egli, B. A.Vermillion, R. Klasen, M. M. ClearyRep-Rated Target Injection for Inertial Fusion EnergyFusion Sci. Technol. 47, 4, Part 2, 1143
Target Fabrication & PropertiesFrey2007D. T. Frey, N. B. Alexander, A. S. Bozek, D. T. Goodin, R. W. Stemke, T. J. Drake, D. BitnerMass Production Methods for Fabrication of Inertial Fusion TargetsFusion Science & Technology 51 (4) 2007, 786-790.
Driver TechnologyFriedman2002Friedman, M.; Myers, M.; Swanekamp, S. B.; Chan, Y.; Sethian, J. D.; Obenschain, S.Suppressing the transit-time instability in large-area electron-beam diodesApplied Physics Letters 81 (9) 2002, 1597 – 1599.
Driver TechnologyFriedman2004Friedman, M.; Myers, M.; Hegeler, F.; Swanekamp, S. B.; Wolford, M. F.; Sethian, J. D.; Ludeking, L.Emission of an intense large area electron beam from a slab of porous dielectricJournal of Applied Physics 96 (12) 2004, 7714-7722.
Driver TechnologyFriedman2004M. Friedman, et alInitiation and prevention of the transit time instability in large area diodesJournal of Applied Physics 95 (5) 2004, 2797 - 2799.
Target InjectionFrolov2005B. K. Frolov, A.Yu. Pigarov, S. I. Krasheninnikov, R.W. Petzoldt, D.T. GoodinSimulation of Afterglow Plasma Evolution in an Inertial Fusion Energy ChamberJournal of Nuclear Materials 337–339 206–210
Driver TechnologyGentile2003C.A. Gentile, H.M. Fan, J.W. Hartfield, R.J. Hawryluk, F. Hegeler, P.J. Heitzenroeder, C.H. Jun, L.P. Ku, P.H. LaMarche, M.C. Myers, J.J. Parker, R.F. Parsells, M. Payen, S. Raftopoulos, J.D. Sethian, F. HegelerDevelopment of a Silicon Based Electron Beam Transmission Window for Use in a KrF Excimer Laser SystemFusion Science and Technology. Vol. 43, Num 3, pp 414 – 419. May 2003.
Driver TechnologyGentile2003C.A. Gentile, R. Parsells, J.E. Butler, J.D. Sethian, L. Ciebiera, F. Hegler, C. Jun, S. Langish, M. MyersThe Development of a Hibachi Window for Electron Beam Transmission in a KrF LaserPPPL Report Num. 3900, November 2003.
Blanket & Systems Design & EngineeringGentile2006C.A. Gentile, T. Kozub, S. Langish, C. Priniski, L. CiebieraFusion Test Facility (FTF) Target Chamber Tritium Recovery, Processing and Purification SystemProceedings TOFE, Nov 2006.
Blanket & Systems Design & EngineeringGentile2008C.A. Gentile, T. Kozub, S. Langish, L. Ciebiera, A. Nobile, J. Wermer, K. SessionsInertial Fusion Energy Power Reactor Fuel Recovery SystemFusion Science and Technology. Vol. 54, Num. 2. pp 371 – 374, August 2008.
Chamber DynamicsGentile2010C.A. Gentile, W.R. Blanchard, T.A. Kozub, M. Aristova, C. McGahan, S. Natta, K. Pagdon, J. ZelentyA Concept for a Low Pressure Noble Gas Fill Intervention in the IFE Fusion Test Facility (FTF) Target ChamberPPPL Report Num. PPPL 4478, January 2010.
Chamber Materials & EngineeringGilliam2005S.B. Gilliam, S.M. Gidcumb, N.R. Parikh, D.G. Forsythe, B.K. Patnaik, J.D. Hunn, L.L. Snead, G.P. LamazeRetention and surface blistering of helium irradiated tungsten as a first wall materialJournal of Nuclear Materials 347 (2005) 289–297.
Chamber Materials & EngineeringGilliam2005S.B. Gilliam, S.M. Gidcumb, D. Forsythe, N.R. Parikh, J.D. Hunn, L.L. Snead, G.P. LamazeHelium retention and surface blistering characteristics of tungsten with regard to first wall conditions in an inertial fusion energy reactorNuclear Instruments and Methods in Physics Research B241 (2005) 491–495.
Target Fabrication and PropertiesGoodin2001D.T. Goodin, A. Nobile, N. B. Alexander, R.W. PetzoldtProgress Towards Demonstrating IFE Target Fabrication and InjectionProc. of 2nd International Conf. on Inertial Fusion Sciences and Applications, page 746
Target InjectionGoodin2001D.T. Goodin, N. B. Alexander, C. R. Gibson, A. Nobile, R. W. Petzoldt, N.P. Siegel, L. ThompsonDeveloping Target Injection and Tracking for Inertial Fusion Energy Power PlantsNucl. Fusion 41, 5, 527
Target InjectionGoodin2002D.T. Goodin, C. R. Gibson, R. W. Petzoldt, N. P. Siegel, L. Thomspon, A. Nobile, G. E. Besenbruch,
K.R. Schultz
Developing the Basis for Target Injection and Tracking in Inertial Fusion Energy Power PlantsFusion Engineering and Design 60, 26
Target Fabrication and PropertiesGoodin2003N.B. Alexander, G.E. Besenbruch, L.C. Brown, A. Nobile, R.W. Petzoldt, W.S. Rickman, D. Schroen, and B. VermillionDemonstrating A Cost-Effective Target Supply for Inertial Fusion EnergyFusion Science and Technology, 44, 2 (2003) 279.
Target Fabrication and PropertiesGoodin2003D. T. Goodin, A. Nobile, D. G. Schroen, J. L. Maxwell, W. S. RickmanCost Effective Target Fabrication for Inertial Fusion EnergyProc. of 3rd International Conf. on Inertial Fusion Sciences and Applications, paper W021.4, page 753
Target Fabrication and PropertiesGoodin2003D. T. Goodin, et al.Addressing the Issues of Target Fabrication and Injection for Inertial Fusion EnergyFusion Engineering and Design 69, 803
Target Fabrication and PropertiesGoodin2004D. T. Goodin, et al.A Cost-Effective Target Supply for Inertial Fusion EnergyNucl. Fusion 44, 12, page S254
Target Fabrication and PropertiesGoodin2005D.T. Goodin, et al.Developing a Commercial Production Process for 500,000 Targets Per Day – A Key Challenge for Inertial Fusion EnergyPresented at the 47th Annual Meeting of Division of Plasma Physics, Denver, Colorado, Phys. Plasmas, May 2006
Target Fabrication and PropertiesGoodin2005D.T. Goodin, et al.Demonstrating a Target Supply for Inertial Fusion EnergyFusion Sci. Technol. 47, 4, Part 2, 1131
Target Fabrication and PropertiesGoodin2006D.T. Goodin, et al.Target Manufacturing - A “Grand Challenge” for Inertial FusionJ. Phys. IV France 133 (2006) 35
Proc. of the International Fusion Sciences and Applications, Biarritz, France.
Target Fabrication and PropertiesGoodin2008D.T. Goodin, et al.Progress in Demonstrating Feasibility of the Target Supply for Laser FusionProc. of the 18th Topical Meeting on the Technology of Fusion Energy (TOFE), San Francisco, California, to be published in Fusion Sci. Technol.
Chamber Materials & EngineeringHashimoto2005N. Hashimoto, J.D. Hunn, N. Parikh, S. Gilliam, S. Gidcumb, B. Patnaik, and L.L. SneadHelium retention of ion-irradiated and annealed Tungsten foilsFusion Science and Technology 47, May 2005.
Chamber Materials & EngineeringHashimoto2005N. Hashimoto, J.D. Hunn, N. Parikh, S. Gilliam, S. Gidcumb, B. Patnaik, L.L. SneadMicrostructural analysis on helium retention of ion-irradiated and annealed tungsten foilsJournal of Nuclear Materials 347 (2005) 307–313.
Driver TechnologyHegeler2002F. Hegeler, M. Myers, M. Friedman,J. Sethian, S. Swanekamp, D. Rose, and D. WelchElectron beams for repetitively pulsed kryton flouride lasers14th International Conference on High-Power Particle Beams, Albuquerque, NM, June 2002, p. 357.
Driver TechnologyHegeler2003Hegeler, F.; Myers, M.C.; Wolford, M.F.; Friedman, M.; Giuliani, J.; Sethian, J.D.; Weidenheimer, D.; Morton, D.; Schlitt, L.Electra: a repetitively pulsed KrF laser system14th IEEE International. Pulsed Power Conference, Vol. 1, 2003, 97 - 102.
Driver TechnologyHegeler2004F. Hegeler, M. C. Myers, J. D. Sethian, D. V. Rose, M. Friedman, M. F. Wolford, J. L. Guiliani, S. B. Swanekamp, and A. BankaEfficient electron beam pumping of repetitively pulsed, high energy krypton fluoride lasersFusion Sciences and Applications 2003, edited by B. A. Hammel, D. D. Meyerhofer, J. Mayer-ter-Vehn, and H. Azechi (Am. Nuc. Soc., La Grange Park, Il, 2004), p. 576.
Driver TechnologyHegeler2004F. Hegeler, D. V. Rose, M. C. Myers, J. D. Sethian, J. L. Guiliani, M. F. Wolford, and M. FriedmanEfficient electron beam deposition in the gas cell of the Electra laserPhys. Plasmas 11, 5010 (2004).
Driver TechnologyHegeler2006Hegeler, F.; Sethian, J.D.; Myers, M.C.; Wolford, M.F.; Friedman, M.; Giuliani, J.L.; Burns, P.; Jaynes, RElectra: Repetitively Pulsed 700 J, 100 ns Electron Beam Pumped KrF Laser27th International Power Modulator Symposium, 2006, 360 - 363.
Driver TechnologyHegeler2007Hegeler, F.; Friedman, M.; Albert, T.; Parish, J.; Myers, M.C.; Wollbrd, M.F.; Giuliani, J.L.; Sethian, J.D.; Burns, P.; Jaynes, R.The Electra KrF Laser System IEEE 34th International Conference on Plasma Science, 2007, 862-862.
Driver TechnologyHegeler2008F. Hegeler, J. L. Giuliani, J. D. Sethian, M. C. Myers, M. F. Wolford, P. M. Burns, M. FriedmanForced Convective Cooling of Foils in a Repetitively Pulsed Electron-Beam DiodeIEEE Transactions on Plasma Science 36 (Issue 3, Part 2) 2008, 778-793.
Chamber Materials & EngineeringHeltemes2007T. A. Heltemes, G. A. MosesThermal Analysis of Candidate Armor Materials for Use in the Magnetic Cusp Field HAPL Reactor DesignFusion Science and Technology 52 (4) November 2007, 927-931.
Chamber Materials & EngineeringHeltemes2007T.A. Heltemes, D.R. Boris, G.A. Moses, M. FatenejadSimulation of thermal response and ion deposition in the HAPL target chamber 1 mm tungsten armor layer using the improved BUCKY codeFusion Engineering and Design, 82, Issue 2, February 2007, 175-187.
Target PhysicsHeltemes2007T. A. Heltemes, G. A. MosesGeneration of x-ray and ion threat spectra for the Fusion Test Facility using the BUCKY 1-D radiation hydrodynamics codeFusion Science and Technology 52 (4) 2007, 796-800.
Chamber Materials & EngineeringHeltemes2009T. A. Heltemes, G. A. MosesAnalysis of Carbon-Bearing Materials for Use as First Wall Armor in the High Average Power Laser (HAPL) ChamberFusion Science and Technology 56 (1) 2009, 470-474.
Chamber Materials & EngineeringHinoki2005Tatsuya Hinoki, Lance L. Snead, Craig A. BlueDevelopment of refractory armored silicon carbide by infrared transient liquid phase processingJournal of Nuclear Materials 347 (3) 15 December 2005, 207-216
Target Fabrication and PropertiesHoffer2005J. K. Hoffer, J. D. Sheliak, D. A. Geller, D. G. Schroen, P. S. EbeyBeta-Layering in Foam-Lined Surrogate IFE TargetAccepted for publication in Fusion Sci. and Technol. LA-UR-05-0949
Chamber Materials & EngineeringHu2007Hu, Q.Y., Sharafat, S., and Ghoniem, N.M.Modeling Space-Time Dependent Helium Bubble Evolution in Tungsten armor Under IFE ConditionsFusion Science and Technology, 52(3), 574 - 578 (Oct 2007).
Shell fabricationHuang2005H. Huang, B. A. Vermillion, L. C. Brown, G.E. Besenbruch, D. T. Goodin, R.W. Stemke, R.B. StephensEvaluation of Fluidized Beds For Mass-Production of IFE TargetsFusion Sci. Technol. 47 (1) 2005, 46-55.
Chamber Materials & EngineeringHyoungil2007Hyoungil K, El-Awady J, Quan J, Sharafat S., Gupta V, Ghoniem NMFailure Strength Measurements of VPS Tungsten Coatings for HAPL First Wall ArmorFusion Science and Technology, 52(4): 875-879 (2007).
Target PhysicsKarasik2005Max Karasik, A. N. Mostovych, R. H. Lehmberg, Y. Chan, J. L. Weaver, and S. P. ObenschainMeasurements of low-level prepulse on Nike KrF laserJ. Appl. Phys. 98, 053101 (2005).
Target PhysicsKarasik2010M. Karasik, J.L. Weaver, Y. Aglitskiy, T. Watari, Y. Arikawa, T. Sakaiya, J. Oh, A.L. Velikovich, S.T. Zalesak, J.W. Bates, S.P. Obenschain, A.J. Schmitt, M. Murakami, and H. AzechiAcceleration to high velocities and heating by impact using Nike KrF laserPhysics of Plasmas 17 056317 (2010).
Chamber Materials & EngineeringKim2007H. Kim, J. El-Awady, J. Quan, S. Sharafat, V. Gupta, N. GhoniemFailure Strength Measurements of VPS Tungsten Coatings for HAPL First Wall ArmorFusion Science and Technology 52 (4) November 2007, 875-879.
Chamber Materials & EngineeringKim2009Kim H, El-Awady J, Gupta V, Ghoniem NM, Sharafat S.Interface Strength Measurement of Tungsten Coatings on F82H SubstratesJournal of Nuclear Materials, 386:863 - 865 (2009).
Chamber Materials & EngineeringKim2009Hyoungil Kim, Jaafar El-Awady, Vijay Gupta, Nasr Ghoniem, Shahram SharafatInterface strength measurement of tungsten coatings on F82H substratesJ. Nucl. Mater. 386-388 (2009) 863-865.
Chamber Materials & EngineeringKobayashi2006Akira Kobayashi, Shahram Sharafat, Nasr M. GhoniemFormation of Tungsten Coatings by Gas-Tunnel Type Plasma SprayingJ. Surface and Coatings Technology, 200: 4630-4635 (2006).
Target Fabrication and PropertiesLatkowski2001J. F. Latkowski, S. Reyes, G. E. Besenburch, D. T. GoodinPreliminary Safety Assessment for an IFE Target Fabrication FacilityFusion Technology 39 (2001) 960.
Chamber Materials & EngineeringLatkowski2005J. F. Latkowski, R. P. Abbott, R. C. Schmitt, B. K. BellEffect of multi-shot X-ray exposures in IFE armor materialsJournal of Nuclear Materials 347 (3) 15 December 2005, 255-265.
Driver TechnologyLehmberg2005R. H. Lehmberg and Y. ChanNear-Field Nonuniformities in Angularly-Multiplexed KrF Fusion Lasers with Induced Spatial IncoherenceAppl. Optics 44 (2005) 2805.
Target PhysicsLehmberg2009R.H. Lehmberg, J.A. Giuliani, and A.J. SchmittPulse shaping and energy storage capabilities of angularly multiplexed KrF laser fusion driversJ. Appl. Phys., 106, 023103 (2009).
Driver TechnologyLu2009B. Lu, et al.Electra KrF Laser Hibachi Foil Cooling with Near-Wall JetsFusion Science and Technology 56 (2009) 441-445.
Blanket & Systems Design & EngineeringMartin2005C. Martin and J. BlanchardDevelopment of a Dry Wall Concept for Laser IFE ChambersFusion Science and Technology, 47 (3), 2005, 585