Research Catalog

Title

Self focusing of relativistic electron bunches in plasma / Valery B. Krasovitskiy.

Author

Krasovit︠s︡kiĭ, V. B. (Valeriĭ Borisovich)

Publication

New York : Nova Science Publishers, [2008], ©2008.

Items in the Library & Off-site

Holdings

Details

Description

201 pages : illustrations; 27 cm.

Series Statement

Horizons in world physics ; v. 259

Uniform Title

Horizons in world physics ; v. 259.

Alternative Title

Self-focusing of relativistic electron bunches in plasma

Subjects

• Particles, Relativistic
• Electron beams
• Plasma electrodynamics

Bibliography (note)

• Includes bibliographical references (p. 188-194) and index.

Contents

Ch. 1. Electrostatic Equilibrium of Modulated Electron Beam in a Plasma -- 1.1. Self-focusing of moving electron disks in a plasma -- 1.2. Longitudinal equilibrium of moving monoenergetic bunches -- 1.3. Resonant anisotropic bunches -- 1.4. Self-focusing of the Boltzmann bunches -- 1.5. Captured particles -- 1.6. Collisional dissipation in the plasma -- 1.7. Equilibrium of laminated electron-ion beam in a plasma -- 1.8. Instability of modulated electron-ion beam in a plasma -- Ch. 2. Electron Bunches in a Heated Nonlinear Magnetized Plasma -- 2.1. Unbounded plasma modes in a finite magnetic field -- 2.2. Ribbon bunches in a heated plasma -- 2.3. Ribbon bunches in a nonlinear plasma -- 2.4. Longitudinal magnetic field -- 2.5. Transport of electron bunches across magnetic field -- 2.6. Self-focusing of rotating electron bunches -- Ch. 3. Self-Focusing of Relativistic Electron Bunches in a Plasma -- 3.1. Integro-differential equation -- 3.2. One-dimensional ultrarelativistic bunches -- 3.3. Satellite instability -- 3.4. Relativistic bunches in a heated plasma -- 3.5. Space electron distribution of focused bunches -- 3.6. Induced charge and current of the plasma -- 3.7. Shock wave with trapped electrons in a collisional plasma -- 3.8. Dynamics of electron bunches in a plasma -- Ch. 4. Stationary Space-Charge Waves in a Plasma with Resonant Particles -- 4.1. Solitary pulse in a plasma with an electron beam -- 4.2. Multi-soliton Langmuir pulse -- 4.3. Solitary wave with an arbitrary group velocity -- 4.4. Bell-shape wave in a plasma -- 4.5. Langmuir solitons in a plasma with an admixture of resonant atoms -- 4.6. Landau damping of short pulses -- Ch. 5. Electromagnetic Solitons in Retarding Dispersive Media with a Charge Particle Beam -- 5.1. Propagation of solitons in the presence of the anomalous Doppler effect -- 5.2. Helicon soliton with trapped electrons in an ion-beam plasma -- 5.3. Solitary pulses in retarding plasma-filled wave guide with an electron-ion beam -- 5.4. Slow soliton in a plasma in the presence of the normal Doppler effect -- 5.5. Autoresonance soliton in a plasma -- 5.6. Resonant solitons in a nonlinear two-level system -- Ch. 6. Collective Acceleration by Ions by a Relativistic Electron Beam -- 6.1. Nonlinear phase oscillations of trapped ions in a REB -- 6.2. Heavy positive ion bunch -- 6.3. Nonlinear evolution of a slow wave in a tubular REB -- 6.4. Charge density waves in a tubular REB -- 6.5. Limiting current of a tubular REB -- 6.6. Acceleration of an ion bunch by a slow modulated-phase cyclotron wave in a REB -- 6.7. Propagation of a bounded high-current REB in a low-density plasma -- Ch. 7. Electrostatic Perturbation Collisional Damping in a Weakly Ionized Plasma -- 7.1. Heating of a weakly ionized plasma by a short electric-field pulse -- 7.2. Small damped oscillations -- 7.3. Nonlinear electron-distribution relaxation in a strong electric field.

ISBN

• 9781600215292 (hardcover)
• 1600215297 (hardcover)

LCCN

2007001649

OCLC

• ocm79003560
• 79003560
• SCSB-5419330

Owning Institutions

Columbia University Libraries