New Journal of Physics (Jan 2013)

Near-monochromatic high-harmonic radiation from relativistic laser–plasma interactions with blazed grating surfaces

  • M Yeung,
  • B Dromey,
  • C Rödel,
  • J Bierbach,
  • M Wünsche,
  • G Paulus,
  • T Hahn,
  • D Hemmers,
  • C Stelzmann,
  • G Pretzler,
  • M Zepf

DOI
https://doi.org/10.1088/1367-2630/15/2/025042
Journal volume & issue
Vol. 15, no. 2
p. 025042

Abstract

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Intense, femtosecond laser interactions with blazed grating targets are studied through experiment and particle-in-cell (PIC) simulations. The high harmonic spectrum produced by the laser is angularly dispersed by the grating leading to near-monochromatic spectra emitted at different angles, each dominated by a single harmonic and its integer-multiples. The spectrum emitted in the direction of the third-harmonic diffraction order is measured to contain distinct peaks at the 9th and 12th harmonics which agree well with two-dimensional PIC simulations using the same grating geometry. This confirms that surface smoothing effects do not dominate the far-field distributions for surface features with sizes on the order of the grating grooves whilst also showing this to be a viable method of producing near-monochromatic, short-pulsed extreme-ultraviolet radiation.