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Kvantovaya Elektronika, 2017 Volume 47, Number 6, Pages 495–502 (Mi qe16623)

This article is cited in 4 papers

Interaction of laser radiation with matter. Laser plasma

Interaction of high-power laser radiation with low-density polymer aerogels

Ch. Kaura, Sh. Chaurasiaa, N. G. Borisenkob, A. S. Orekhovb, P. Leshmaa, V. G. Pimenovc, G. V. Sklizkovb, A. A. Akunetsb, M. N. Deoa

a High Pressure and Synchrotron Radiation Physics Division, Bhabha Atomic Research Centre, India
b P. N. Lebedev Physical Institute, Russian Academy of Sciences, Moscow
c N.D. Zelinskii Institute of Organic Chemistry, Russian Academy of Sciences

Abstract: The interaction of high-power subnanosecond laser pulses with low-density targets of cellulose triacetate polymer is considered. An Nd-glass laser setup provides a focal spot intensity of over 1014 W cm-2. An investigation is made of absorption of laser radiation, laser-to-X-ray energy conversion, spectra of ions emitted from the plasma, transmission of laser radiation through the target and plasma, as well as volume heating of the target material. It is experimentally determined that the laser energy conversion efficiency to X-rays with photon energies of a few kiloelectronvolts decreases with increasing target material density. With the use of targets of density 10 mg cm-3 this efficiency is two times lower in comparison to 2 mg cm-3 density targets. The duration and amplitude of laser pulses transmitted through the target decreases with increasing column target density (the product of target material density and its thickness). The spectra of ions emitted from low-density target plasmas are recorded using ion collectors positioned at different angles relative to the direction of laser beam propagation as well as a high-resolution Thomson mass spectrometer. The ion flux and ion energies are found to increase with increasing target material density. The peak of the ion energy spectrum is shifted towards higher energies with increasing laser radiation intensity.

Keywords: laser-produced plasma, nanostructures, ion spectroscopy, low-density aerogel, volume absorption, subcritical-density targets, X-ray radiation yield.

Received: 26.01.2017


 English version:
Quantum Electronics, 2017, 47:6, 495–502

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