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Implementing the plasma-lasing potential for tabletop nano-imaging

Abstract

Implementing the plasma-lasing potential for tabletop nano-imaging on across a hot plasma medium drives short-wavelength lasing, promising for "turnkey" nano-imaging setups. A systematic study of the illumination characteristics, combined with design-adapted objectives, is presented. It is shown how the ultimate nano-scale feature is dictated by either the diffraction-limited or the wavefront-limited resolution, which imposed a combined study of both the source and the optics. For nano-imaging, the spatial homogeneity of the illumination (spot noise) was shown as critical. Plasma-lasing from a triple grazing-incidence pumping scheme compensated for the missing spot homogeneity in classical schemes. We demonstrate that a collimating mirror pre-conditions both the pointing stability and the divergence below half a mrad.

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Acknowledgments

The authors are grateful to I. Artyoukov (Lebedev Institute), J. Fessler (University of Michigan), and our colleagues F. Staub, L. Masoudnia, J.E. Balmer, and Th. Feurer (University of Bern) for discussions. The present work was supported by the Swiss National Science Foundation under the Grant Number PP00P2-133564/1.

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Correspondence to Davide Bleiner.

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Ruiz-Lopez, M., Bleiner, D. Implementing the plasma-lasing potential for tabletop nano-imaging. Appl. Phys. B 115, 311–324 (2014). https://doi.org/10.1007/s00340-013-5606-z

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  • DOI: https://doi.org/10.1007/s00340-013-5606-z

Keywords

  • Astigmatism
  • Amplify Spontaneous Emission
  • Main Pulse
  • Entrance Pupil
  • Strehl Ratio