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Issues

Volume 15, Issue 1
January 2008
Issue Cover
All Issues
ISSN 1070-664X
EISSN 1089-7674

ANNOUNCEMENTS

Announcement: The 2007 James Clerk Maxwell Prize for Plasma Physics
Ronald C. Davidson
Phys. Plasmas 15, 010201 (2008) https://doi.org/10.1063/1.2813460
View articletitled, Announcement: The 2007 James Clerk Maxwell Prize for Plasma Physics
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LETTERS

High-β, improved confinement reversed-field pinch plasmas at high density
M. D. Wyman; B. E. Chapman; J. W. Ahn; A. F. Almagri; J. K. Anderson; F. Bonomo; D. L. Brower; S. K. Combs; D. Craig; D. J. Den Hartog; B. H. Deng; W. X. Ding; F. Ebrahimi; D. A. Ennis; G. Fiksel; C. R. Foust; P. Franz; S. Gangadhara; J. A. Goetz; R. O'Connell; S. P. Oliva; S. C. Prager; J. A. Reusch; J. S. Sarff; H. D. Stephens; T. Yates
Phys. Plasmas 15, 010701 (2008) https://doi.org/10.1063/1.2835439
View articletitled, High-<span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><mi xmlns="">β</mi></math>⁠</span>, improved confinement reversed-field pinch plasmas at high density
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ARTICLES

Basic Plasma Phenomena, Waves, Instabilities
Neutrino induced charge in a superdense two-electron Fermi plasma
L. A. Rios; P. K. Shukla
Phys. Plasmas 15, 012101 (2008) https://doi.org/10.1063/1.2826438
View articletitled, Neutrino induced charge in a superdense two-electron Fermi plasma
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Growth of resistive instabilities in E×B plasma discharge simulations
E. Fernandez; M. K. Scharfe; C. A. Thomas; N. Gascon; M. A. Cappelli
Phys. Plasmas 15, 012102 (2008) https://doi.org/10.1063/1.2823033
View articletitled, Growth of resistive instabilities in <span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><mrow xmlns=""><mi mathvariant="bold">E</mi><mo>×</mo><mi mathvariant="bold">B</mi></mrow></math></span> plasma discharge simulations
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Spectral gap of shear Alfvén waves in a periodic array of magnetic mirrors
Yang Zhang; W. W. Heidbrink; H. Boehmer; R. McWilliams; Guangye Chen; B. N. Breizman; S. Vincena; T. Carter; D. Leneman; W. Gekelman; P. Pribyl; B. Brugman
Phys. Plasmas 15, 012103 (2008) https://doi.org/10.1063/1.2827518
View articletitled, Spectral gap of shear Alfvén waves in a periodic array of magnetic mirrors
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Ions motion effects on the full unstable spectrum in relativistic electron beam plasma interaction
A. Bret; M. E. Dieckmann
Phys. Plasmas 15, 012104 (2008) https://doi.org/10.1063/1.2828607
View articletitled, Ions motion effects on the full unstable spectrum in relativistic electron beam plasma interaction
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Drift mode in a bounded plasma having two-ion species
Ali Ahmad; M. Sajid; H. Saleem
Phys. Plasmas 15, 012105 (2008) https://doi.org/10.1063/1.2826440
View articletitled, Drift mode in a bounded plasma having two-ion species
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Creation of finely focused particle beams from single-component plasmas
T. R. Weber; J. R. Danielson; C. M. Surko
Phys. Plasmas 15, 012106 (2008) https://doi.org/10.1063/1.2817967
View articletitled, Creation of finely focused particle beams from single-component plasmas
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Self-gravitational instability of rotating anisotropic heat-conducting plasma
R. P. Prajapati; A. K. Parihar; R. K. Chhajlani
Phys. Plasmas 15, 012107 (2008) https://doi.org/10.1063/1.2828074
View articletitled, Self-gravitational instability of rotating anisotropic heat-conducting plasma
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Nonlinear filamentation of a current-carrying plasma
A. R. Niknam; B. Shokri
Phys. Plasmas 15, 012108 (2008) https://doi.org/10.1063/1.2833595
View articletitled, Nonlinear filamentation of a current-carrying plasma
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Debye-shielding potential in the presence of pair correlations
Anirban Bose; M. S. Janaki
Phys. Plasmas 15, 012109 (2008) https://doi.org/10.1063/1.2832682
View articletitled, Debye-shielding potential in the presence of pair correlations
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Quantum effects on Rayleigh–Taylor instability in magnetized plasma
Jintao Cao; Haijun Ren; Zhengwei Wu; Paul K. Chu
Phys. Plasmas 15, 012110 (2008) https://doi.org/10.1063/1.2833588
View articletitled, Quantum effects on Rayleigh–Taylor instability in magnetized plasma
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The instabilities induced by electrostatic fields and gradients in a plasma shock front
Yong He; Xiwei Hu; Zhonghe Jiang; Jianhong Lü
Phys. Plasmas 15, 012111 (2008) https://doi.org/10.1063/1.2834726
View articletitled, The instabilities induced by electrostatic fields and gradients in a plasma shock front
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On the magnetohydrodynamic load and the magnetohydrodynamic metage
Sagar Chakraborty; Partha Guha
Phys. Plasmas 15, 012112 (2008) https://doi.org/10.1063/1.2836617
View articletitled, On the magnetohydrodynamic load and the magnetohydrodynamic metage
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Nonresonant power transfer in plasma-surface interactions via two-surface wave decay
Yu. A. Akimov; K. Ostrikov
Phys. Plasmas 15, 012113 (2008) https://doi.org/10.1063/1.2836621
View articletitled, Nonresonant power transfer in plasma-surface interactions via two-surface wave decay
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Nonlinear Phenomena, Turbulence, Transport
A model for two-dimensional bursty turbulence in magnetized plasmas
Sergio Servidio; Leonardo Primavera; Vincenzo Carbone; Alain Noullez; Kristoffer Rypdal
Phys. Plasmas 15, 012301 (2008) https://doi.org/10.1063/1.2825656
View articletitled, A model for two-dimensional bursty turbulence in magnetized plasmas
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Three-dimensional simulations of compressible tearing instability
Simone Landi; Pasquale Londrillo; Marco Velli; Lapo Bettarini
Phys. Plasmas 15, 012302 (2008) https://doi.org/10.1063/1.2825006
View articletitled, Three-dimensional simulations of compressible tearing instability
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Transport of parallel momentum by collisionless drift wave turbulence
P. H. Diamond; C. J. McDevitt; Ö. D. Gürcan; T. S. Hahm; V. Naulin
Phys. Plasmas 15, 012303 (2008) https://doi.org/10.1063/1.2826436
View articletitled, Transport of parallel momentum by collisionless drift wave turbulence
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Improved model for transport driven by drift modes in tokamaks
Federico D. Halpern; Annika Eriksson; Glenn Bateman; Arnold H. Kritz; Alexei Pankin; Christopher M. Wolfe; Jan Weiland
Phys. Plasmas 15, 012304 (2008) https://doi.org/10.1063/1.2829762
View articletitled, Improved model for transport driven by drift modes in tokamaks
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Intermittency in the heat and particle transports in the SINP tokamak scrape-off layer
S. K. Saha; S. Chowdhury
Phys. Plasmas 15, 012305 (2008) https://doi.org/10.1063/1.2828479
View articletitled, Intermittency in the heat and particle transports in the SINP tokamak scrape-off layer
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Theory and simulations of principle of minimum dissipation rate
Dastgeer Shaikh; B. Dasgupta; G. P. Zank; Q. Hu
Phys. Plasmas 15, 012306 (2008) https://doi.org/10.1063/1.2828539
View articletitled, Theory and simulations of principle of minimum dissipation rate
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Three-dimensional global fluid simulations of cylindrical magnetized plasmas
V. Naulin; T. Windisch; O. Grulke
Phys. Plasmas 15, 012307 (2008) https://doi.org/10.1063/1.2829603
View articletitled, Three-dimensional global fluid simulations of cylindrical magnetized plasmas
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Regimes of the interactions of high-intensity plane electromagnetic waves with electron-ion plasmas
O. B. Shiryaev
Phys. Plasmas 15, 012308 (2008) https://doi.org/10.1063/1.2832699
View articletitled, Regimes of the interactions of high-intensity plane electromagnetic waves with electron-ion plasmas
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Magnetically Confined Plasmas, Heating, Confinement
Extension and comparison of neoclassical models for poloidal rotation in tokamaks
W. M. Stacey
Phys. Plasmas 15, 012501 (2008) https://doi.org/10.1063/1.2829073
View articletitled, Extension and comparison of neoclassical models for poloidal rotation in tokamaks
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Drift-tearing magnetic islands in tokamak plasmas
R. Fitzpatrick; F. L. Waelbroeck
Phys. Plasmas 15, 012502 (2008) https://doi.org/10.1063/1.2829757
View articletitled, Drift-tearing magnetic islands in tokamak plasmas
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Interpretation of edge pedestal rotation measurements in DIII-D
W. M. Stacey; R. J. Groebner
Phys. Plasmas 15, 012503 (2008) https://doi.org/10.1063/1.2830653
View articletitled, Interpretation of edge pedestal rotation measurements in DIII-D
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Estimation of pump-out and positive radial electric field created by electron cyclotron resonance heating in magnetic confinement devices
F. Castejón; S. Eguilior; I. Calvo; D. López-Bruna; J. M. García-Regaña
Phys. Plasmas 15, 012504 (2008) https://doi.org/10.1063/1.2831063
View articletitled, Estimation of pump-out and positive radial electric field created by electron cyclotron resonance heating in magnetic confinement devices
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Equilibrium rotation in field-reversed configurations
Loren Steinhauer
Phys. Plasmas 15, 012505 (2008) https://doi.org/10.1063/1.2834271
View articletitled, Equilibrium rotation in field-reversed configurations
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Analytical impurity transport model: Coupling between particle and charge state transports in tokamak plasmas
V. A. Shurygin
Phys. Plasmas 15, 012506 (2008) https://doi.org/10.1063/1.2833589
View articletitled, Analytical impurity transport model: Coupling between particle and charge state transports in tokamak plasmas
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Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter
Use of microsecond current prepulse for dramatic improvements of wire array Z-pinch implosion
H. Calamy; F. Lassalle; A. Loyen; F. Zucchini; J. P. Chittenden; F. Hamann; P. Maury; A. Georges; J. P. Bedoch; A. Morell
Phys. Plasmas 15, 012701 (2008) https://doi.org/10.1063/1.2828549
View articletitled, Use of microsecond current prepulse for dramatic improvements of wire array Z-pinch implosion
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Rugby-like hohlraum experimental designs for demonstrating x-ray drive enhancement
Peter Amendt; C. Cerjan; D. E. Hinkel; J. L. Milovich; H.-S. Park; H. F. Robey
Phys. Plasmas 15, 012702 (2008) https://doi.org/10.1063/1.2825662
View articletitled, Rugby-like hohlraum experimental designs for demonstrating x-ray drive enhancement
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Ionospheric, Solar-System, and Astrophysical Plasmas
Kinetic theory and simulation of collisionless tearing in bifurcated current sheets
Tatsuki Matsui; William Daughton
Phys. Plasmas 15, 012901 (2008) https://doi.org/10.1063/1.2832679
View articletitled, Kinetic theory and simulation of collisionless tearing in bifurcated current sheets
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Lasers, Particle Beams, Accelerators, Radiation Generation
Effect of laser parameters on electron injection into laser wakefields in plasma with a counterpropagating additional laser pulse
W.-M. Wang; Z.-M. Sheng
Phys. Plasmas 15, 013101 (2008) https://doi.org/10.1063/1.2825671
View articletitled, Effect of laser parameters on electron injection into laser wakefields in plasma with a counterpropagating additional laser pulse
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Plasma-loaded free-electron laser with thermal electron beam and background plasma
S. Babaei; B. Maraghechi
Phys. Plasmas 15, 013102 (2008) https://doi.org/10.1063/1.2828071
View articletitled, Plasma-loaded free-electron laser with thermal electron beam and background plasma
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Radiation from a space charge dominated linear electron beam
Debabrata Biswas
Phys. Plasmas 15, 013103 (2008) https://doi.org/10.1063/1.2828075
View articletitled, Radiation from a space charge dominated linear electron beam
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Relativistic electron beam acceleration by nonlinear scattering of electromagnetic waves in a magnetized plasma
R. Sugaya
Phys. Plasmas 15, 013104 (2008) https://doi.org/10.1063/1.2825000
View articletitled, Relativistic electron beam acceleration by nonlinear scattering of electromagnetic waves in a magnetized plasma
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Role of radial nonuniformities in the interaction of an intense laser with atomic clusters
Amol R. Holkundkar; N. K. Gupta
Phys. Plasmas 15, 013105 (2008) https://doi.org/10.1063/1.2826450
View articletitled, Role of radial nonuniformities in the interaction of an intense laser with atomic clusters
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Multipeak emission of the fast electron beams along the target surface in ultrashort laser interaction with solid targets
X. H. Yuan; Y. T. Li; M. H. Xu; Z. Y. Zheng; M. Chen; W. X. Liang; Q. Z. Yu; Y. Zhang; F. Liu; J. Bernhardt; S. J. Wang; Z. H. Wang; Z. Y. Wei; W. Zhao; J. Zhang
Phys. Plasmas 15, 013106 (2008) https://doi.org/10.1063/1.2827519
View articletitled, Multipeak emission of the fast electron beams along the target surface in ultrashort laser interaction with solid targets
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Leader effects on femtosecond-laser-filament-triggered discharges
Takashi Fujii; Megumu Miki; Naohiko Goto; Alexei Zhidkov; Tetsuo Fukuchi; Yuji Oishi; Koshichi Nemoto
Phys. Plasmas 15, 013107 (2008) https://doi.org/10.1063/1.2830647
View articletitled, Leader effects on femtosecond-laser-filament-triggered discharges
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Electron vacuum acceleration by a tightly focused laser pulse
K. I. Popov; V. Yu. Bychenkov; W. Rozmus; R. D. Sydora
Phys. Plasmas 15, 013108 (2008) https://doi.org/10.1063/1.2830651
View articletitled, Electron vacuum acceleration by a tightly focused laser pulse
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Saturation of backward stimulated scattering of laser in kinetic regime: Wavefront bowing, trapped particle modulational instability, and trapped particle self-focusing of plasma waves
L. Yin; B. J. Albright; K. J. Bowers; W. Daughton; H. A. Rose
Phys. Plasmas 15, 013109 (2008) https://doi.org/10.1063/1.2825663
View articletitled, Saturation of backward stimulated scattering of laser in kinetic regime: Wavefront bowing, trapped particle modulational instability, and trapped particle self-focusing of plasma waves
Supplementary Material
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Quantum wave kinetics of high-gain free-electron lasers
A. Serbeto; J. T. Mendonça; K. H Tsui; R. Bonifacio
Phys. Plasmas 15, 013110 (2008) https://doi.org/10.1063/1.2833591
View articletitled, Quantum wave kinetics of high-gain free-electron lasers
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Dispersion relation and growth in a two-stream free electron laser with helical wiggler and ion channel guiding
Hassan Mehdian; Negar Abbasi
Phys. Plasmas 15, 013111 (2008) https://doi.org/10.1063/1.2829072
View articletitled, Dispersion relation and growth in a two-stream free electron laser with helical wiggler and ion channel guiding
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Stability of frequency-multiplying harmonic gyroklystrons
A. V. Savilov; G. S. Nusinovich
Phys. Plasmas 15, 013112 (2008) https://doi.org/10.1063/1.2832681
View articletitled, Stability of frequency-multiplying harmonic gyroklystrons
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Radiation: Emission, Absorption, Transport
Photodetachment of the hydrogen negative ion in weakly coupled plasmas
Sabyasachi Kar; Y. K. Ho
Phys. Plasmas 15, 013301 (2008) https://doi.org/10.1063/1.2829070
View articletitled, Photodetachment of the hydrogen negative ion in weakly coupled plasmas
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Low-Temperature Plasmas, Plasma Applications, Plasma Sources, Sheaths
Discharge phenomena associated with a preheated wire explosion in vacuum: Theory and comparison with experiment
I. I. Beilis; R. B. Baksht; V. I. Oreshkin; A. G. Russkikh; S. A. Chaikovskii; A. Yu. Labetskii; N. A. Ratakhin; A. V. Shishlov
Phys. Plasmas 15, 013501 (2008) https://doi.org/10.1063/1.2826434
View articletitled, Discharge phenomena associated with a preheated wire explosion in vacuum: Theory and comparison with experiment
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Analysis of neutral active particle loss in afterglow in krypton at 2.6mbar pressure
Momcilo M. Pejovic; Jugoslav P. Karamarkovic; Goran S. Ristic; Milic M. Pejovic
Phys. Plasmas 15, 013502 (2008) https://doi.org/10.1063/1.2817064
View articletitled, Analysis of neutral active particle loss in afterglow in krypton at <span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><mrow xmlns=""><mn>2.6</mn><mspace width="0.3em"></mspace><mi>mbar</mi></mrow></math></span> pressure
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Ion orbits in plasma etching of semiconductors
Tsitsi G. Madziwa-Nussinov; Donald Arnush; Francis F. Chen
Phys. Plasmas 15, 013503 (2008) https://doi.org/10.1063/1.2819681
View articletitled, Ion orbits in plasma etching of semiconductors
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A hypersonic plasma bullet train traveling in an atmospheric dielectric-barrier discharge jet
Jianjun Shi; Fangchun Zhong; Jing Zhang; D. W. Liu; M. G. Kong
Phys. Plasmas 15, 013504 (2008) https://doi.org/10.1063/1.2828551
View articletitled, A hypersonic plasma bullet train traveling in an atmospheric dielectric-barrier discharge jet
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Dusty Plasmas
Dust ion-acoustic waves in magnetized quantum dusty plasmas with polarity effect
S. A. Khan; A. Mushtaq; W. Masood
Phys. Plasmas 15, 013701 (2008) https://doi.org/10.1063/1.2825655
View articletitled, Dust ion-acoustic waves in magnetized quantum dusty plasmas with polarity effect
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Electrostatic solitary structures in dusty plasmas with nonthermal and superthermal electrons
Kamel Aoutou; Mouloud Tribeche; Taha Houssine Zerguini
Phys. Plasmas 15, 013702 (2008) https://doi.org/10.1063/1.2828073
View articletitled, Electrostatic solitary structures in dusty plasmas with nonthermal and superthermal electrons
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Large amplitude dust-acoustic solitary waves and double layers in nonthermal plasmas
F. Verheest; S. R. Pillay
Phys. Plasmas 15, 013703 (2008) https://doi.org/10.1063/1.2831025
View articletitled, Large amplitude dust-acoustic solitary waves and double layers in nonthermal plasmas
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BRIEF COMMUNICATIONS

Revision of “Cumulative effect of the filamentation and Weibel instabilities in counterstreaming thermal plasmas” [Phys. Plasmas 13, 102107 (2006)]
A. Stockem; M. Lazar
Phys. Plasmas 15, 014501 (2008) https://doi.org/10.1063/1.2830646
View articletitled, Revision of “Cumulative effect of the filamentation and Weibel instabilities in counterstreaming thermal plasmas” [Phys. Plasmas 13, 102107 (2006)]
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Arbitrary amplitude dust ion acoustic solitary waves in dense Fermi plasmas
S. Mahmood
Phys. Plasmas 15, 014502 (2008) https://doi.org/10.1063/1.2830649
View articletitled, Arbitrary amplitude dust ion acoustic solitary waves in dense Fermi plasmas
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Low frequency electrostatic and electromagnetic modes in nonuniform cold quantum plasmas
H. Saleem; Ali Ahmad; S. A. Khan
Phys. Plasmas 15, 014503 (2008) https://doi.org/10.1063/1.2833596
View articletitled, Low frequency electrostatic and electromagnetic modes in nonuniform cold quantum plasmas
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Dust-induced instability in a rotating plasma
A. B. Mikhailovskii; S. V. Vladimirov; J. G. Lominadze; V. S. Tsypin; A. P. Churikov; N. N. Erokhin; R. M. O. Galvão
Phys. Plasmas 15, 014504 (2008) https://doi.org/10.1063/1.2813188
View articletitled, Dust-induced instability in a rotating plasma
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Gyrokinetic theory and simulation of turbulent energy exchange
R. E. Waltz; G. M. Staebler
Phys. Plasmas 15, 014505 (2008) https://doi.org/10.1063/1.2830823
View articletitled, Gyrokinetic theory and simulation of turbulent energy exchange
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COMMENTS

Comment on “Derivation of paleoclassical key hypothesis” [Phys. Plasmas 14, 040701 (2007)]
J. W. Connor; R. J. Hastie; J. B. Taylor
Phys. Plasmas 15, 014701 (2008) https://doi.org/10.1063/1.2828094
View articletitled, Comment on “Derivation of paleoclassical key hypothesis” [Phys. Plasmas 14, 040701 (2007)]
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Response to “Comment on ‘Derivation of paleoclassical key hypothesis' ” [
Phys. Plasmas
15
,
014701
(
2008
)]
J. D. Callen
Phys. Plasmas 15, 014702 (2008) https://doi.org/10.1063/1.2828095
View articletitled, Response to “Comment on ‘Derivation of paleoclassical key hypothesis' ” [<span class="related-article"><div class="source">Phys. Plasmas</div> <div class="volume">15</div>, <div class="fpage">014701</div> (<div class="year">2008</div>)</span>]
Comment on “Derivation of paleoclassical key hypothesis” [Phys. Plasmas 14, 040701 (2007)]
A. Thyagaraja; C. M. Roach; R. D. Hazeltine
Phys. Plasmas 15, 014703 (2008) https://doi.org/10.1063/1.2828096
View articletitled, Comment on “Derivation of paleoclassical key hypothesis” [Phys. Plasmas 14, 040701 (2007)]
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Response to “Comment on ‘Derivation of paleoclassical key hypothesis’ ” [Phys. Plasmas 15, 014703 (2008)]
J. D. Callen
Phys. Plasmas 15, 014704 (2008) https://doi.org/10.1063/1.2828097
View articletitled, Response to “Comment on ‘Derivation of paleoclassical key hypothesis’ ” [Phys. Plasmas 15, 014703 (2008)]
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ERRATA

Erratum: “Simulation of electron distribution features in the ionization process of an electron cyclotron resonance discharge” [Phys. Plasmas 14, 113505 (2007)]
Xiaolin Jin; Zhonghai Yang; Tao Huang
Phys. Plasmas 15, 019901 (2008) https://doi.org/10.1063/1.2827520
View articletitled, Erratum: “Simulation of electron distribution features in the ionization process of an electron cyclotron resonance discharge” [Phys. Plasmas 14, 113505 (2007)]
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Erratum: “The role of ions during stable impedance operation of the immersed-Bz diode at 4to5MV” [Phys. Plasmas 14, 113107 (2007)]
D. C. Rovang; N. Bruner; J. E. Maenchen; B. V. Oliver; S. Portillo; E. Puetz; D. V. Rose; D. R. Welch
Phys. Plasmas 15, 019902 (2008) https://doi.org/10.1063/1.2829024
View articletitled, Erratum: “The role of ions during stable impedance operation of the immersed-<span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><msub xmlns=""><mi>B</mi><mi>z</mi></msub></math></span> diode at <span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><mrow xmlns=""><mn>4</mn><mspace width="0.3em"></mspace><mtext>to</mtext><mspace width="0.3em"></mspace><mn>5</mn><mspace width="0.3em"></mspace><mi>MV</mi></mrow></math></span>” [Phys. Plasmas 14, 113107 (2007)]
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Erratum: “Nonlinear excitations in electron-positron-ion plasmas in accretion disks of active galactic nuclei” [Phys. Plasmas 14, 102901 (2007)]
W. M. Moslem; I. Kourakis; P. K. Shukla; R. Schlickeiser
Phys. Plasmas 15, 019903 (2008) https://doi.org/10.1063/1.2829028
View articletitled, Erratum: “Nonlinear excitations in electron-positron-ion plasmas in accretion disks of active galactic nuclei” [Phys. Plasmas 14, 102901 (2007)]
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Progress toward fusion energy breakeven and gain as measured against the Lawson criterion
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