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Tuesday, May 19, 2020 | History

2 edition of Microwave and particle beam sources and propagation found in the catalog.

Microwave and particle beam sources and propagation

Microwave and particle beam sources and propagation

part of the 1988 Innovative Science and Technology Symposium : 13-15 January 1988, Los Angeles, California

  • 395 Want to read
  • 7 Currently reading

Published by SPIE in Bellingham, Wash., USA .
Written in English

    Subjects:
  • Microwave devices -- Congresses.,
  • Particle beams -- Congresses.,
  • Strategic Defense Initiative -- Congresses.

  • Edition Notes

    Includes bibliographies and index.

    StatementNorman Rostoker, chair/editor ; sponsored by SPIE--the International Society for Optical Engineering.
    SeriesProceedings of SPIE--the International Society for Optical Engineering ;, v. 873
    ContributionsRostoker, Norman., Society of Photo-optical Instrumentation Engineers., Innovative Science and Technology Symposium (1988 : Los Angeles, Calif.)
    Classifications
    LC ClassificationsTK7876 .M524 1988
    The Physical Object
    Paginationx, 365 p. ;
    Number of Pages365
    ID Numbers
    Open LibraryOL2064154M
    ISBN 100892529083
    LC Control Number88060231

    (**) shows that if the field B 0 is directed along the wave's propagation (say, axis z), i.e. B 0 = n z B 0, the particle's motion in the direction x of wave's electric field causes a magnetic force in the direction y, and vice versa, so that the electric polarization acquires not only the x-, but also the y-component. Description: is built-in. The Phase Doppler Method is based upon the principles of light scattering interferometry. Measurements are made at a small, non-intrusive optical probe volume defined by the intersection of two laser beams. As a particle passes through the probe volume, it scatters light.

    Particle beam weapons fire subatomic particles of hydrogen, electrons, and/or protons at near light-speed, and to measure the output, PBWs must be talked about in terms of millions-of-electron volts (MeV), the beam current in amperes, and the power of the beam itself in watts.   The protons undergo less scatter than X-ray and gamma-ray photons. An additional advantage of proton beam therapy over X-ray or gamma-ray photon therapy is that the proton beam, consisting of a charged particle of relatively high mass, will dissipate most of its energy via ionization when it reaches the end of its range of travel in human tissue.

    Free Electron coherent sources: From microwave to X-rays. A charged particle oscillating in an electric field with velocity v It is well known that a cavity, operating in the microwave range, is the basic tool to produce an acceleration of a charged beam passing through it, however if some conditions are not met the electrons may lose Cited by: 7. Observing atomic motions as they occur is the dream goal of ultrafast electron microscopy (UEM). Great progress has been made so far thanks to the efforts of many scientists in developing the photoemission sources and beam blankers needed to create short pulses of electrons for the UEM by: 1.


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Microwave and particle beam sources and propagation Download PDF EPUB FB2

Microwave and Particle Beam Sources and Propagation (Proceedings of SPIE--the International Society for Optical Engineering) [Rostoker, Norman] on *FREE* shipping on qualifying offers.

Microwave and Particle Beam Sources and Propagation (Proceedings of SPIE--the International Society for Optical Engineering)Author: Norman Rostoker. Get this from a library. Microwave and particle beam sources and propagation: part of the Innovative Science and Technology Symposium: JanuaryLos Angeles, California.

[Norman Rostoker; Society of Photo-optical Instrumentation Engineers.;]. High-Power Microwave Sources and Technologies is an invaluable resource to researchers active in the field, faculty, graduate and post-graduate students. Special Note: All royalties realized from the sale of this book will fund the future research and publications activities of graduate students in the HPM : Hardcover.

Microwaves are a form of electromagnetic radiation with Microwave and particle beam sources and propagation book ranging from about one meter to one millimeter; with frequencies between MHz (1 m) and GHz (1 mm). Different sources define different frequency ranges as microwaves; the above broad definition includes both UHF and EHF (millimeter wave) bands.A more common definition in radio-frequency engineering is the range.

He performs extensive work in the physics and technology of charged particle beam generation and propagation, high-power narrow band and ultra-wideband microwave sources, plasma physics and diagnostics, and electromagnetic wave propagation. Schamiloglu is the associate editor of the IEEE Transactions on Plasma Science.

a) Some new mechanisms of microwave radiation are possible (e.g., cyclotron maser instability); b) Some peculiarities in the physics of wave-beam interaction occur at high voltages, when electron velocity approaches the speed of light.

History of HPM sources starts from the late ’s when the first. High-Power Microwave Sources and Technologies is an invaluable resource to researchers active in the field, faculty, graduate and post-graduate students.

Special Note: All royalties realized from the sale of this book will fund the future research and publications activities of graduate students in the HPM field. Particle-in-cell simulation results show that a high power microwave with a power of GW and a frequency of GHz is generated with a kV, kA electron beam excitation and a 25 kW seed.

Mechanisms and Control of Beam Halo Formation in Intense Microwave Sources and Accelerators Article in Physics of Plasmas 7(5) May with 19 Reads How we measure 'reads'. High-Power Microwave Sources and Technologies is an invaluable resource to researchers active in the field, faculty, graduate and post-graduate students.

Special Note: All royalties realized from the sale of this book will fund the future research and publications activities of graduate students in the HPM field. Halo formation and control in space-charge-dominated electron and ion beams are investigated in parameter regimes relevant to the development of high-power microwave (HPM) sources and high-intensity electron and ion linear accelerators.

In particular, a mechanism for. Radio propagation is the behavior of radio waves as they travel, or are propagated, from one point to another, or into various parts of the atmosphere. As a form of electromagnetic radiation, like light waves, radio waves are affected by the phenomena of reflection, refraction, diffraction, absorption, polarization, and scattering.

Understanding the effects of varying conditions on radio. Lasers, high-power microwaves and high-energy particle beams have been exploited for DEW development. These weapons, with the exception of particle beam weapons (PBWs) and laser-induced plasma channel (LIPC) weapons, generate streams of electromagnetic energy that can be precisely directed over long distances to disable or destroy intended targets.

Public reporting burden for the collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of by: 8. High-Power Microwave Sources and Technologies is an invaluable resource to researchers active in the field, faculty, graduate and post-graduate students.

Special Note: All royalties realized from the sale of this book will fund the future research and publications activities of graduate students in the HPM : Gebundenes Buch. Laser and Particle Beam Fusion. Laser and particle beam fusion physics; Experiments and diagnostics; Target fabrication; Lasers, laser propagation and optics including advanced materials response to high energy lasers and advanced manufacturing; Material response to radiation (particle and photon) Magnetic Driven Fusion.

Magneto-inertial fusion. intense negative ion beam extraction from solid hydrogen. influence of collector ions on operation of magnetically insulated diode. numerical studies of particle-beam focusing and propagation.

exploding metal film active anode source experiments on the lion extractor ion diode. d particle-in-cell code calculations for ion diodes. He performs extensive work in the physics and technology of charged particle beam generation and propagation, high--power narrow band and ultra--wideband microwave sources, plasma physics and diagnostics, and electromagnetic wave propagation.

Schamiloglu is the associate editor of the IEEE Transactions on Plasma Science. The article presents a survey of a number of works concerning plasma-beam methods for generation and acceleration. The methods are based on the effects of the self-excitation of regular waves of charge density in nonequilibrium plasma-beam systems.

Hypotheses dealing with the propagation and excitation of regular waves in an equilibrium plasma are : V. Kurilko. The thrust of his research has been studying beam-wave interactions in high power sources of coherent electromagnetic radiation, electromagnetic effects on electronics, and related areas.

He has co-edited one book and co-authored another on this topic. He has authored of coauthored over 50 refereed journal papers, reviewed conference papers, and one patent. His research interests are in the physics and technology of charged particle beam generation and propagation, high-power microwave sources, plasma physics and diagnostics, electromagnetic wave propagation, and pulsed power.

Dr.Light or visible light is electromagnetic radiation within the portion of the electromagnetic spectrum that can be perceived by the human eye. Visible light is usually defined as having wavelengths in the range of – nanometers (nm), or × 10 −7 to × 10 −7 m, between the infrared (with longer wavelengths) and the ultraviolet (with shorter wavelengths).Physics and technology of charged particle beam generation and propagation, high power microwave sources and effects, pulsed power science and technologies, plasma physics and diagnostics, electromagnetics and wave propagation, neurosystems engineering.