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High-order harmonic generation in laser plasma plumes /
This book represents the first comprehensive treatment of high-order harmonic generation in laser-produced plumes, covering the principles, past and present experimental status and important applications. It shows how this method of frequency conversion of laser radiation towards the extreme ultravi...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London :
Imperial College Press,
©2013.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Ch. 1. Introduction
- ch. 2. Basic principles of harmonic generation in plasmas. 2.1. Fundamentals of HHG in isotropic media. 2.2. High-order harmonic generation in various laser plasmas. 2.3. Application of 400-nm radiation for harmonic generation in laser plasma. 2.4. High-order harmonic generation in plasmas produced by laser pulses of different durations. 2.5. Analysis of laser-produced plasma characteristics for optimization of HHG
- ch. 3. Resonance-induced enhancement of high-order harmonic generation in plasma. 3.1. Giant enhancement of 13th harmonic generation in indium plasma. 3.2. Single harmonic enhancement in chromium, gallium arsenide, and indium antimonide plasmas. 3.3. Single harmonic enhancement at strong excitation conditions. 3.4. Resonance enhancement of odd and even harmonics in tin plasma during two-color pumping. 3.5. Plasma harmonic enhancement using two-color pump and chirp variation of 1 kHz Ti:sapphire laser. 3.6. Theoretical approaches for description of observed peculiarities of resonant enhancement of single harmonic in laser plasma
- ch. 4. Cluster-containing plasma plumes: attractive media for high-order harmonic generation of laser radiation. 4.1. Overview. 4.2. Ablation of metal nanoparticles. 4.3. Ablation of bulk metals. 4.4. Overview of early studies of harmonic generation in cluster-containing media. 4.5. Application of cluster-containing plasma for efficient HHG. 4.6. Peculiarities of HHG in nanoparticle-containing plasmas. 4.7. Advantages and disadvantages of the application of cluster-containing plasmas for the enhancement of HHG efficiency
- ch. 5. Application of fullerenes for harmonic generation. 5.1. First observation of HHG in fullerene plasma. 5.2. Influence of various experimental parameters on HHG efficiency in fullerene plasma. 5.3. Studies of harmonic modulation from fullerene-rich plasmas. 5.4. Two-color pump for harmonic generation in C[symbol]. 5.5. Analysis of the morphology of fullerene targets and ablated materials. 5.6. Theoretical calculations of HHG in fullerenes. 5.7. Calculations of HHG in endohedral fullerenes. 5.8. Discussion
- ch. 6. Enhancement of harmonic yield from ablation plumes. 6.1. Two-color pump for enhancement of harmonic output from plasma over the whole plateau region. 6.2. Application of time-resolved spectroscopy of laser plasma for enhancement of harmonic efficiency and generation of second plateau in harmonic distribution. 6.3. Application of carbon aerogel plumes as efficient media for HHG in the 40-90 nm range. 6.4. Comparative studies of HHG in laser plasmas and gases
- ch. 7. Recent developments and future perspectives of plasma HHG. 7.1. New trends, schemes, and approaches in plasma HHG. 7.2. High-order harmonic generation in carbon nanotube-containing plasma plumes. 7.3. Destructive interference of laser harmonics in mixtures of various emitters in plasma plumes. 7.4. Generation of broadband harmonics from laser plasma. 7.5. Quantum path signatures in harmonic spectra from metal plasma. 7.6. Summary and future perspectives of HHG in laser plasma.