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Encuadernación Pyatnitsky L.N. Wave Besselian beams
Id: 171308
59.9 EUR

Wave Besselian beams

URSS. 408 pp. (English). ISBN 978-5-396-00509-9.
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Resumen del libro

In this work we discuss the propagation of the wave radiation focused by the axicon, and analyze optical discharges created by laser Besselian beam in gases, fluids and on solid surfaces. We consider formation processes of discharges, properties and structures of the plasma channels. Also, we describe the methods of research of Besselian beams, breakdowns, discharges and plasmas created by the beams.

The optical discharge arisen under the action... (Información más detallada)


Table of contents
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Preface
Acknowledgments
Introduction
Chapter 1. Wave Besselian beams
 1.1.Basic equations
 1.2.The beam field and nonlinear structures
 1.3.Tubular Besselian beams
Chapter 2. Besselian beam formation
 2.1.Intensity distribution along the beam
 2.2.The field kinds of longitudinal distribution
 2.3.Axicon optics
 2.4.Axicon manufacturing methods
Chapter 3. Laser systems in Besselian beam experiment
 3.1.The laser oscillators
  Laser oscillator with passive Q-switch
  Laser oscillator with active Q-switch
  Laser oscillator with unstable resonator
 3.2.The laser amplifier system
  Amplification for laser oscillator G1
  Amplification for laser oscillator G2
  Amplifier for laser oscillator G3
 3.3.Generation of probe radiation
Chapter 4. Research methodology
 4.1.Diagram of experimental setup
 4.2.Visualization of processes in Besselian beam field
  Optical discharge in the light of plasma radiation
  Optical discharge in the light of scattered radiation
  Scattering indicatrix recording
  Shadow and schlieren pictures of discharges
  Spectroscopy of optical discharge plasma
 4.3.Electron-optical registration of the discharge
  Linear scanning of processes
   Frame scanning of processes
  Directional coupler
 4.4.Synchronization system
  Block diagram of experiment control
  Digital devices for synchronization
  Sequence regulating of rapid processes
Chapter 5. Optical discharges and plasma channels in Besselian beam field
 5.1.Plasma channel creation techniques
 5.2.Besselian beam discharge propagation
 5.3.Discharge length in Besselian beam
 5.4.Propagation velocity of the optical discharge
Chapter 6. Radial expansion of plasma channels
 6.1.Expansion of plasma channel in air
 6.2.Comparison with self-similar solution
 6.3.Plasma channel expansion in some other gases
 6.4.Structures of plasma channels in Besselian beams
 6.5.Lifetime prolongation of Besselian beam channel
Chapter 7. Discharge structures in Besselian beams
 7.1.Typical structures of laser spark
 7.2.Breakdown mechanism in Besselian beam field
 7.3.Confusing structures of optical discharge
Chapter 8. Hydrodynamics of plasma channel created by Besselian beam
 8.1.Evolution of axisymmetric thermal explosion
 8.2.Radial expansion of the plasma channel
 8.3.Channels in radiation field of high power
 8.4.Instability of the plasma waveguide
  The modulation linear theory
   Numeral analysis of channel mode structure
Chapter 9. Parameters of the plasma channels
 9.1.Plasma channels of various kinds
 9.2.Electro-physical properties of plasma channels
 9.3.Emission spectra of plasma channels
 9.4.Diagnostics of cannel plasma parameters
 9.5.Spectral lines observed in plasma of some gases
Chapter 10. Possible applications of Besselian beams and the plasma channels
 10.1.Precise measurement of optical breakdown threshold
 10.2.Nonlinear effects in the fields below breakdown
 10.3.High-speed switch for current and voltage wide ranges
 10.4.Short-wave plasma laser
 10.5.Superpower laser pulses
  Laser plasma acceleration of electrons
  Generation of electromagnetic radiation
 10.6.Controlled thermonuclear synthesis
  Nuclear fusion with magnetically confined plasma
  Eelectrodynamic compression of plasma
  Nuclear fusion with inertial plasma confinement
 10.7.Some other possible applications
Conclusion
References
Index

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