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1.
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Recent secondary electron modeling at Princeton Plasma Physics Laboratory
/ Swanson, C (Unlisted, US, NJ) ; Kaganovich, I D (Princeton U., Plasma Physics Lab.)
Over the past 5 years, researchers at Princeton Plasma Physics Laboratory (PPPL) have been engaged in research to theoretically characterize Secondary Electron Emission (SEE) from complex surfaces. We have used both a Monte Carlo numerical method and an analytic integral model to study the phenomenon. [...]
2020 - 6 p.
Fulltext from publisher: PDF;
In : ECLOUD’18: Proceedings of the Joint INFN-CERN-ARIES Workshop on Electron-Cloud Effects, La Biodola, Isola d'Elba, Italy, 3 - 7 Jun 2018, pp.131-136 (CERN-2020-007)
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2.
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Secondary electron emission yield in the limit of low electron energy
/ Andronov, A.N. (St. Petersburg Polytechnic Inst.) ; Smirnov, A.S. (St. Petersburg Polytechnic Inst.) ; Kaganovich, I.D. (Princeton U., Plasma Physics Lab.) ; Startsev, E.A. (Princeton U., Plasma Physics Lab.) ; Raitses, Y. (Princeton U., Plasma Physics Lab.) ; Demidov, V.I. (West Virginia U.)
Secondary electron emission (SEE) from solids plays an important role in many areas of science and technology.1 In recent years, there has been renewed interest in the experimental and theoretical studies of SEE. A recent study proposed that the reflectivity of very low energy electrons from solid surface approaches unity in the limit of zero electron energy2,3,4, If this was indeed the case, this effect would have profound implications on the formation of electron clouds in particle accelerators,2-4 plasma measurements with electrostatic Langmuir probes, and operation of Hall plasma thrusters for spacecraft propulsion5,6. [...]
arXiv:1309.4658.-
2013-04-22 - 3 p.
- Published in : AIP Conf. Proc. C: 1206051 (2013) , pp. 161-163
Fulltext: PDF; Published version from CERN: PDF; External link: Preprint
In : ECLOUD’12: Joint INFN-CERN-EuCARD-AccNet Workshop on Electron-Cloud Effects, pp.161-163
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3.
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Ion Beam Pulse Interaction with Background Plasma in a Solenoidal Magnetic Field
/ Kaganovich, Igor D ; Davidson, Ronald C ; Startsev, Edward
Background plasma can be used as an effective neutralization scheme to transport and compress intense ion beam pulses, and the application of a solenoidal magnetic field allows additional control and focusing of the beam pulse. Ion beam pulse propagation in a background plasma immersed in an applied solenoidal magnetic field has been studied both analytically and numerically with three different particle-in-cell codes (LSP, OOPIC-Pro and EDPIC) to cross-check the validity of the results. [...]
2005
External link: Published version from JACoW
In : 21st IEEE Particle Accelerator Conference, Knoxville, TN, USA, 16 - 20 May 2005, pp.2062
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4.
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5.
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Multispecies Weibel Instability for Intense Ion Beam Propagation Through Background Plasma
/ Davidson, Ronald C ; Hudson, Stuart R ; Kaganovich, Igor D ; Qin, Hong ; Startsev, Edward
In application of heavy ion beams to high energy density physics and fusion, background plasma is utilized to neutralize the beam space charge during drift compression and/or final focus of the ion beam. It is important to minimize the deleterious effects of collective instabilities on beam quality associated with beam-plasma interactions. [...]
2005
External link: Published version from JACoW
In : 21st IEEE Particle Accelerator Conference, Knoxville, TN, USA, 16 - 20 May 2005, pp.1952
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6.
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Initial Results on Neutralized Drift Compression Experiments (NDCX-IA) for High Intensity Ion Beam
/ Roy, Prabir K ; Anders, Andre ; Baca, David ; Bieniosek, Frank ; Coleman, Joshua E ; Davidson, Ronald C ; Efthimion, Philip ; Eylon, Shmuel ; Gilson, Erik P ; Grant Logan, B et al.
Ion beam neutralization and compression experiments are designed to determine the feasibility of using compressed high intensity ion beams for high energy density physics (HEDP) experiments and for inertial fusion power. To quantitatively ascertain the various mechanisms and methods for beam compression, the Neutralized Drift Compression Experiment (NDCX) facility is being constructed at Lawrence Berkeley National Laboratory (LBNL). [...]
2005
External link: Published version from JACoW
In : 21st IEEE Particle Accelerator Conference, Knoxville, TN, USA, 16 - 20 May 2005, pp.3856
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7.
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Highly Compressed Ion Beams for High Energy Density Science
/ Friedman, Alex ; Barnard, John J ; Briggs, Richard J ; Callahan, Debra ; Caporaso, George ; Celata, C M ; Davidson, Ronald C ; Faltens, Andy ; Grant-Logan, B ; Grisham, Larry et al.
The Heavy Ion Fusion Virtual National Laboratory (HIF-VNL) is developing the intense ion beams needed to drive matter to the High Energy Density (HED) regimes required for Inertial Fusion Energy (IFE) and other applications. An interim goal is a facility for Warm Dense Matter (WDM) studies, wherein a target is heated volumetrically without being shocked, so that well-defined states of matter at 1 to 10 eV are generated within a diagnosable region. [...]
2005
External link: Published version from JACoW
In : 21st IEEE Particle Accelerator Conference, Knoxville, TN, USA, 16 - 20 May 2005, pp.339
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8.
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Plasma Neutralization Models for Intense Ion Beam Transport in Plasma
/ Kaganovich, I D ; Davidson, R C ; Lee, E P ; O'Rourke, S ; Startsev, E A
2003 - 3 p.
External link: Published version from JACoW
In : 20th IEEE Particle Accelerator Conference, Portland, OR, USA, 12 - 16 May 2003, pp.2975
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9.
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10.
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Overview of Theory and Modeling in the Heavy Ion Fusion Virtual National Laboratory
/ Davidson, R C ; Barnard, J J ; Celata, C M ; Cohen, R H ; De Hoon, M ; Friedman, A ; Grote, D P ; Henestroza, E ; Kaganovich, I D ; Lee, E P et al.
This paper presents analytical and simulation studies of intense heavy ion beam propagation, including the injection, acceleration, transport and compression phases, and beam transport and focusing in background plasma in the target chamber. [...]
2003. - 22 p.
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