High-power laser-plasma interaction:
Linear waves -- Resonance absorption and Brunel absorption -- Plasmonics surface plasma waves and their coupling to lasers -- Motion in a strong electromagnetic wave: ponderomotive force and self-generated magnetic field -- Laser electron acceleration -- Laser acceleration of ions -- Coherent radiat...
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Cambridge, United Kingdom ; New York, NY
Cambridge University Press
2019
|
| Schlagworte: | |
| Online-Zugang: | BSB01 FHN01 Volltext |
| Zusammenfassung: | Linear waves -- Resonance absorption and Brunel absorption -- Plasmonics surface plasma waves and their coupling to lasers -- Motion in a strong electromagnetic wave: ponderomotive force and self-generated magnetic field -- Laser electron acceleration -- Laser acceleration of ions -- Coherent radiation emission: free electron laser -- Self-focusing and filamentation -- Parametric instabilities -- Parametric instabilities in inhomogeneous plasma -- Nonlinear Schrodinger equation -- Vlasov and particle-in-cell simulations -- Strong electromagnetic field effects in plasma "Laser power has increased from 100 watts in 1960 (the first laser) to terawatts in 1985 through the invention of chirped pulse amplification proposed by Mourou and Strickland, to 100 petawatt and beyond today. Presently, lasers constitute the most powerful coherent source of radiation on the Earth. Also, we have advanced our understanding of the most fascinating but complex state of high-temperature matter, plasma, in which matter is ionized to contain free electrons and ions. Plasma supports many collective oscillations, such as electron plasma waves and ion acoustic waves, and the electromagnetic wave is also strongly modified by plasma. Parametric coupling between lasers and plasma waves and quasi-modes gives rise to stimulated Raman, Brillouin and Compton scattering, two-plasmon decay, and four-wave processes including filamentation, modulational and oscillating two-stream instabilities. Nonlinear refraction leads to self-focusing and self-guiding of the laser over long distances in plasma and air, offsetting diffraction divergence. Laser interaction with metallic surfaces gives rise to surface-enhanced Raman scattering from adsorbed molecules and mode conversion to surface plasma waves with application to ablation and thin film deposition. With the rapid development of laser technology and plasma understanding, we can expect many exciting new frontiers of research to develop in coming years"-- |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | 1 Online-Ressource (1 online resource) |
| ISBN: | 9781108635844 1108635849 |
| DOI: | 10.1017/9781108635844 |
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| 520 | 3 | |a Linear waves -- Resonance absorption and Brunel absorption -- Plasmonics surface plasma waves and their coupling to lasers -- Motion in a strong electromagnetic wave: ponderomotive force and self-generated magnetic field -- Laser electron acceleration -- Laser acceleration of ions -- Coherent radiation emission: free electron laser -- Self-focusing and filamentation -- Parametric instabilities -- Parametric instabilities in inhomogeneous plasma -- Nonlinear Schrodinger equation -- Vlasov and particle-in-cell simulations -- Strong electromagnetic field effects in plasma | |
| 520 | 3 | |a "Laser power has increased from 100 watts in 1960 (the first laser) to terawatts in 1985 through the invention of chirped pulse amplification proposed by Mourou and Strickland, to 100 petawatt and beyond today. Presently, lasers constitute the most powerful coherent source of radiation on the Earth. Also, we have advanced our understanding of the most fascinating but complex state of high-temperature matter, plasma, in which matter is ionized to contain free electrons and ions. Plasma supports many collective oscillations, such as electron plasma waves and ion acoustic waves, and the electromagnetic wave is also strongly modified by plasma. Parametric coupling between lasers and plasma waves and quasi-modes gives rise to stimulated Raman, Brillouin and Compton scattering, two-plasmon decay, and four-wave processes including filamentation, modulational and oscillating two-stream instabilities. Nonlinear refraction leads to self-focusing and self-guiding of the laser over long distances in plasma and air, offsetting diffraction divergence. Laser interaction with metallic surfaces gives rise to surface-enhanced Raman scattering from adsorbed molecules and mode conversion to surface plasma waves with application to ablation and thin film deposition. With the rapid development of laser technology and plasma understanding, we can expect many exciting new frontiers of research to develop in coming years"-- | |
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Datensatz im Suchindex
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| author | Liu, C. S. Tripathi, Vijai K. Eliasson, Bengt 1965- |
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| id | DE-604.BV045933312 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T08:30:46Z |
| institution | BVB |
| isbn | 9781108635844 1108635849 |
| language | English |
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| spelling | Liu, C. S. Verfasser aut High-power laser-plasma interaction C.S. Liu, V.K. Tripathi, Bengt Eliasson Cambridge, United Kingdom ; New York, NY Cambridge University Press 2019 1 Online-Ressource (1 online resource) txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references and index Linear waves -- Resonance absorption and Brunel absorption -- Plasmonics surface plasma waves and their coupling to lasers -- Motion in a strong electromagnetic wave: ponderomotive force and self-generated magnetic field -- Laser electron acceleration -- Laser acceleration of ions -- Coherent radiation emission: free electron laser -- Self-focusing and filamentation -- Parametric instabilities -- Parametric instabilities in inhomogeneous plasma -- Nonlinear Schrodinger equation -- Vlasov and particle-in-cell simulations -- Strong electromagnetic field effects in plasma "Laser power has increased from 100 watts in 1960 (the first laser) to terawatts in 1985 through the invention of chirped pulse amplification proposed by Mourou and Strickland, to 100 petawatt and beyond today. Presently, lasers constitute the most powerful coherent source of radiation on the Earth. Also, we have advanced our understanding of the most fascinating but complex state of high-temperature matter, plasma, in which matter is ionized to contain free electrons and ions. Plasma supports many collective oscillations, such as electron plasma waves and ion acoustic waves, and the electromagnetic wave is also strongly modified by plasma. Parametric coupling between lasers and plasma waves and quasi-modes gives rise to stimulated Raman, Brillouin and Compton scattering, two-plasmon decay, and four-wave processes including filamentation, modulational and oscillating two-stream instabilities. Nonlinear refraction leads to self-focusing and self-guiding of the laser over long distances in plasma and air, offsetting diffraction divergence. Laser interaction with metallic surfaces gives rise to surface-enhanced Raman scattering from adsorbed molecules and mode conversion to surface plasma waves with application to ablation and thin film deposition. With the rapid development of laser technology and plasma understanding, we can expect many exciting new frontiers of research to develop in coming years"-- Laser-plasma interactions High power lasers Tripathi, Vijai K. Verfasser aut Eliasson, Bengt 1965- Verfasser (DE-588)1020214678 aut Erscheint auch als Druck-Ausgabe, hardback Erscheint auch als Druck-Ausgabe, paperback https://doi.org/10.1017/9781108635844 Verlag URL des Erstveröffentlichers Volltext |
| spellingShingle | Liu, C. S. Tripathi, Vijai K. Eliasson, Bengt 1965- High-power laser-plasma interaction |
| title | High-power laser-plasma interaction |
| title_auth | High-power laser-plasma interaction |
| title_exact_search | High-power laser-plasma interaction |
| title_full | High-power laser-plasma interaction C.S. Liu, V.K. Tripathi, Bengt Eliasson |
| title_fullStr | High-power laser-plasma interaction C.S. Liu, V.K. Tripathi, Bengt Eliasson |
| title_full_unstemmed | High-power laser-plasma interaction C.S. Liu, V.K. Tripathi, Bengt Eliasson |
| title_short | High-power laser-plasma interaction |
| title_sort | high power laser plasma interaction |
| url | https://doi.org/10.1017/9781108635844 |
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