Rattling nucleons: New developments in active interrogation of special nuclear material
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Scott J. Thompson | David L. Chichester | Robert C. Runkle | S. Thompson | R. Runkle | D. Chichester
[1] T. R. England,et al. Evaluation and compilation of fission product yields 1993 , 1995 .
[2] J Pruet,et al. The Nuclear Car Wash: Neutron interrogation of cargo containers to detect hidden SNM☆ , 2007 .
[3] Q. Ji. Compact Permanent Magnet Microwave‐Driven Neutron Generator , 2011 .
[4] Tsahi Gozani,et al. Linac based photofission inspection system employing novel detection concepts , 2011 .
[5] N. M. Abdurrahman,et al. Neutron Spectrometry for the Assay of High Fissile Content Spent Fuel , 2002 .
[6] Peter E. Vanier,et al. Securing Special Nuclear Material: Recent Advances in Neutron Detection and Their Role in Nonproliferation , 2010 .
[7] R. S. Walling,et al. Detection of Special Nuclear Material in Cargo Containers Using Neutron Interrogation , 2003 .
[8] N. Ensslin,et al. Passive Nondestructive Assay of Nuclear Materials , 1991 .
[9] C. A. Goulding,et al. Photon and Neutron Active Interrogation of Highly Enriched Uranium , 2005 .
[10] V. I. Nazarov,et al. Method and system based on pulsed neutron generator for fissile material detection in luggage , 2004 .
[11] Merril Eisenbud,et al. Environmental Radioactivity - From Natural, Industrial, and Military Sources, Fourth Edition , 1987 .
[12] E. Roesgen,et al. Detection of SNM by delayed gamma rays from induced fission , 2011 .
[13] H.H.K. Tang,et al. Measurement of the flux and energy spectrum of cosmic-ray induced neutrons on the ground , 2004, IEEE Transactions on Nuclear Science.
[14] Philip R. Bingham,et al. Portable fast-neutron radiography with the nuclear materials identification system for fissile material transfers , 2007 .
[15] J. Vujic,et al. Improving differential die-away analysis via the use of neutron poisons in detectors , 2007 .
[16] B. D. Sowerby,et al. Recent advances in fast neutron radiography for cargo inspection , 2007 .
[17] A. Persaud,et al. A tandem-based compact dual-energy gamma generator. , 2010, The Review of scientific instruments.
[18] Wolfgang Stoeffl,et al. Active detection of small quantities of shielded highly-enriched uranium using low-dose 60-kev neutron interrogation , 2006 .
[19] F. Vesely,et al. Yields and spectra of some spherical photo neutron sources , 1969 .
[20] D. Wehe,et al. Observation of /sup 238/U photofission products , 2006, IEEE Transactions on Nuclear Science.
[21] C. Hagmann,et al. Active Detection of Shielded SNM With 60-keV Neutrons , 2009, IEEE Transactions on Nuclear Science.
[22] Vladimir N. Litvinenko,et al. Gamma-ray production in a storage ring free-electron laser , 1997 .
[23] Frederic V. Hartemann,et al. Detecting clandestine material with nuclear resonance fluorescence , 2006 .
[24] G. Mckinney,et al. Comparison of active interrogation techniques , 2005, IEEE Nuclear Science Symposium Conference Record, 2005.
[25] Edward R. Siciliano,et al. Neutron detection alternatives to 3He for national security applications , 2010 .
[26] K. A. Jordan,et al. Detection of 235U in hydrogenous cargo with Differential Die-Away Analysis and optimized neutron detectors , 2007 .
[27] James L. Jones,et al. Utilization of actively-induced, prompt radiation emission for nonproliferation applications , 2007 .
[28] Alan W. Hunt,et al. Time dependence of delayed neutron emission for fissionable isotope identification , 2005 .
[29] Sara A. Pozzi,et al. Fast coincidence counting with active inspection systems , 2005 .
[30] S. Thompson,et al. Utilization of high-energy neutrons for the detection of fissionable materials , 2007 .
[31] R. L. Bramblett,et al. DELAYED NEUTRONS FROM LOW ENERGY PHOTOFISSION. , 1970 .
[32] A. J. Peurrung,et al. Neutron detection via bubble chambers. , 2005, Applied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine.
[33] James Hall,et al. High-Energy Neutron Imaging Development at LLNL , 2005 .
[34] Anthony J. Peurrung,et al. The Photon Haystack and Emerging Radiation Detection Technology , 2009 .
[35] J. H. Hubbell,et al. XCOM: Photon cross sections on a personal computer , 1987 .
[36] Malcolm Crick,et al. United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR) activities and issues , 2011 .
[37] Edward R. Siciliano,et al. Cosmic-Ray-Induced Ship-Effect Neutron Measurements and Implications for Cargo Scanning at Borders , 2008 .
[38] J. Kollár,et al. Letter: Tritium hazards connected with the operation of a neutron generator. , 1975, The International journal of applied radiation and isotopes.
[39] L. B. Engle,et al. Delayed Gammas from Fast-Neutron Fission of Th 232 , U 233 , U 235 , U 238 , and Pu 239 , 1964 .
[40] Stephen E. Korbly,et al. Prompt neutrons from photofission and its use in homeland security applications , 2010, 2010 IEEE International Conference on Technologies for Homeland Security (HST).
[41] F Jallu,et al. Transuranic waste detection by photon interrogation and on-line delayed neutron counting , 2000 .
[42] Z. Bell,et al. Photoneutron source based on a compact 10 MeV betatron , 1999 .
[43] D. Chichester,et al. Using electronic neutron generators in active interrogation to detect shielded fissionable material , 2009, 2008 IEEE Nuclear Science Symposium Conference Record.
[44] Howard O. Menlove,et al. Next Generation Safeguards Initiative research to determine the Pu mass in spent fuel assemblies: Purpose, approach, constraints, implementation, and calibration , 2011 .
[45] R. B. Walton,et al. Delayed Gamma Rays from Photofission of U 238 , U 235 , and Th 232 , 1964 .
[46] K. Nakamura,et al. GeV electron beams from a centimetre-scale accelerator , 2006 .
[47] Dennis R. Slaughter,et al. Analysis of Recent Manifests for Goods Imported through US Ports , 2006 .
[48] D. Brown,et al. Modeling the Production of Beta-Delayed Gamma Rays for the Detection of Special Nuclear Materials , 2005 .
[49] H.,et al. Strong dipole excitations around 1.8 MeV in 238U. , 1995, Physical review. C, Nuclear physics.
[50] C. Hagmann,et al. A kinematically beamed, low energy pulsed neutron source for active interrogation , 2004 .
[51] O. Waldmann. A Permanent-Magnet Microwave Ion Source for a Compact High-Yield Neutron Generator , 2011 .
[52] Steve Fetter,et al. Detecting nuclear warheads , 1990 .
[53] W. K. Hensley,et al. Nuclear Resonance Fluorescence Excitations Near 2 MeV in 235U and 239Pu , 2008 .
[55] J. Mattingly,et al. NMIS plus gamma spectroscopy for attributes of HEU, PU and HE detection , 2004 .
[56] Hiroyuki Toyokawa,et al. Nondestructive Detection of Heavily Shielded Materials by Using Nuclear Resonance Fluorescence with a Laser-Compton Scattering γ-ray Source , 2009 .
[57] R. J. Tuttle. Delayed-neutron data for reactor-physics analysis , 1975 .
[58] G. Rudstam. Six-Group Representation of the Energy Spectra of Delayed Neutrons from Fission , 1982 .
[59] V. Altuzar,et al. Atmospheric pollution profiles in Mexico City in two different seasons , 2003 .
[60] B. Wiegel,et al. Spectrometry using the PTB neutron multisphere spectrometer (NEMUS) at flight altitudes and at ground level , 2002 .
[61] S. Pozzi,et al. Monte Carlo Modeling of Delayed Neutrons from Photofission , 2007 .
[62] R C Singleterry,et al. Measurement of the energy spectrum of cosmic-ray induced neutrons aboard an ER-2 high-altitude airplane. , 2002, Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment.
[63] W. Y. Yoon,et al. Detection of shielded nuclear material in a cargo container , 2006 .
[64] Thomas B. Gosnell,et al. Signatures of fissile materials: high-energy γ rays following fission , 2004 .
[65] Erin A. Miller,et al. Photon and neutron interrogation techniques for chemical explosives detection in air cargo: A critical review , 2009 .
[66] Nobuyuki Nishimori,et al. Nondestructive assay of plutonium and minor actinide in spent fuel using nuclear resonance fluorescence with laser Compton scattering γ-rays , 2010 .
[67] Nobuyuki Nishimori,et al. Detection of radioactive isotopes by using laser Compton scattered γ-ray beams , 2009 .
[68] M. M. Pickrell,et al. Application Guide to Neutron Multiplicity Counting , 1998 .
[69] Tsahi Gozani,et al. Pulsed neutron differential die away analysis for detection of nuclear materials , 2007 .
[70] L. Lakosi,et al. Neutron interrogation of high-enriched uranium by a 4 MeV linac , 2008 .
[71] C. L. Hollas,et al. Portable active interrogation system. , 2005 .
[72] G. Spriggs,et al. Delayed neutron spectral data for Hansen-Roach energy group structure , 1999 .
[73] A. Caffrey,et al. Chemical warfare agent and high explosive identification by spectroscopy of neutron-induced gamma rays , 1991, Conference Record of the 1991 IEEE Nuclear Science Symposium and Medical Imaging Conference.
[74] Tsahi Gozani,et al. Neutron threshold activation detectors (TAD) for the detection of fissions , 2011 .
[75] G. P. Couchell,et al. Composite delayed-neutron spectra from U-235 , 1986 .
[76] T. Valentine. Evaluation of prompt fission gamma rays for use in simulating nuclear safeguard measurements , 1999 .
[77] Glen A. Warren,et al. Potential Applications of Nuclear Resonance Fluorescence , 2009 .
[78] V. V. Verbinski,et al. Prompt Gamma Rays from U 235 ( n , f ) , Pu 239 ( n , f ) , and Spontaneous Fission of Cf 252 , 1973 .
[79] M. R. Accatino,et al. The "nuclear car wash": a scanner to detect illicit special nuclear material in cargo containers , 2005, IEEE Sensors Journal.
[80] E. Conti,et al. First results on material identification and imaging with a large-volume muon tomography prototype , 2009, 2009 1st International Conference on Advancements in Nuclear Instrumentation, Measurement Methods and their Applications.
[81] P. Hausladen,et al. Pulsed D‐D Neutron Generator Measurements of HEU Oxide Fuel Pins , 2009 .
[82] K. Anderson,et al. Time-Spectral Analysis Methods for Spent Fuel Assay Using Lead Slowing-Down Spectroscopy , 2010, IEEE Transactions on Nuclear Science.
[83] C. L. Fink,et al. FIGARO: detecting nuclear materials using high-energy gamma-rays , 2003 .
[84] Tsahi Gozani,et al. Differential die-away analysis system response modeling and detector design , 2008 .
[85] Alan W. Hunt,et al. The detection of delayed γ-rays between intense bremsstrahlung pulses for discriminating fissionable from non-fissionable materials , 2009 .
[86] R. Kouzes,et al. Skyshine Contribution to Gamma Ray Background Between 0 and 4 MeV , 2009 .
[87] S. G. Anderson,et al. Design and operation of a tunable MeV-level Compton-scattering-based γ-ray source , 2010 .
[88] J. T. Caldwell,et al. Experimental Determination of Photofission Neutron Multiplicities for 235U, 236U, 238U, and 232Th Using Monoenergetic Photons , 1980 .
[89] J. Caggiano,et al. On the Search for Nuclear Resonance Fluorescence Signatures of $^{235}{\rm U}$ and $^{238}{\rm U}$ Above 3 MeV , 2008, IEEE Transactions on Nuclear Science.
[90] Thomas Luu,et al. Signals and interferences in the nuclear car wash , 2007 .