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Literature DB >> 10990889

Intense picosecond X-Ray pulses from laser plasmas by use of nanostructured "Velvet" targets

Abstract

We describe the optical, radiative, and laser-plasma physics of a new type of nanostructured surface especially promising as a very high absorption target for high-peak-power subpicosecond laser-matter interaction. This oriented-nanowire material, irradiated by 1 ps pulses at intensities up to 10(17) W cm(-2), produces picosecond soft x-ray pulses 50x more efficiently than do solid targets. We compare this to "smoke" or metallic clusters, and solid nanogroove-grating surfaces; the "metal-velvet" targets combine the high yield of smoke targets with the brief emission of grating surfaces.

Year: 2000 PMID： 10990889 DOI： 10.1103/PhysRevLett.84.5149

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

1. Aligned copper nanorod arrays for highly efficient generation of intense ultra-broadband THz pulses.

Authors: S Mondal; Q Wei; W J Ding; H A Hafez; M A Fareed; A Laramée; X Ropagnol; G Zhang; S Sun; Z M Sheng; J Zhang; T Ozaki
Journal: Sci Rep Date: 2017-01-10 Impact factor: 4.379

2. Energy penetration into arrays of aligned nanowires irradiated with relativistic intensities: Scaling to terabar pressures.

Authors: Clayton Bargsten; Reed Hollinger; Maria Gabriela Capeluto; Vural Kaymak; Alexander Pukhov; Shoujun Wang; Alex Rockwood; Yong Wang; David Keiss; Riccardo Tommasini; Richard London; Jaebum Park; Michel Busquet; Marcel Klapisch; Vyacheslav N Shlyaptsev; Jorge J Rocca
Journal: Sci Adv Date: 2017-01-11 Impact factor: 14.136

3. Transition from Coherent to Stochastic electron heating in ultrashort relativistic laser interaction with structured targets.

Authors: G Cristoforetti; P Londrillo; P K Singh; F Baffigi; G D'Arrigo; Amit D Lad; R G Milazzo; A Adak; M Shaikh; D Sarkar; G Chatterjee; J Jha; M Krishnamurthy; G R Kumar; L A Gizzi
Journal: Sci Rep Date: 2017-05-03 Impact factor: 4.379

Intense picosecond X-Ray pulses from laser plasmas by use of nanostructured "Velvet" targets

1. Aligned copper nanorod arrays for highly efficient generation of intense ultra-broadband THz pulses.

2. Energy penetration into arrays of aligned nanowires irradiated with relativistic intensities: Scaling to terabar pressures.

3. Transition from Coherent to Stochastic electron heating in ultrashort relativistic laser interaction with structured targets.

4. Enhanced laser-driven proton acceleration using nanowire targets.

5. Bacterial cells enhance laser driven ion acceleration.

6. Thermal excitation signals in the inhomogeneous warm dense electron gas.