Comparing of modeling methods of X-RAY radiation propagation in paraxial area

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Abstract

The results of calculation of different modeling methods of radiation propagation calculation after a zone plate made of a Cu and Si are shown in the article. The modeling methods are one-dimension Fresnel transformation, one-dimension non-paraxial propagation method (angle spectrum of flat waves), two-dimension integral of Rayleigh-Zommerfeld, RSoft BeamProp software (RSoft design froup, USA). It is shown, that all four methods give results close each other in the focal plane.

About the authors

A. G. Nalimov

Image Processing Systems Institute of RAS, Samara

Author for correspondence.
Email: anton@smr.ru

Candidate of Physical and Mathematical Sciences

Scientist

Russian Federation

S. N. Khonina

Samara State Aerospace University

Email: khonina@smr.ru

Doctor of Physical and Mathematical Sciences

Professor of Technical Cybernetics Department

Russian Federation

References

  1. Attwood, D. Soft x-rays and extreme ultraviolet radiation: principles and applications / D. Attwood // Cambridge University Press, 1999. – 486 p.
  2. Vaschenko, G. Sub-38 nm resolution tabletop microscopy with 13 nm wavelength laser light / G. Vaschenko, C. Brewer, F. Brizuela, Y. Wang, M.A. Larotonda, B.M. Luther, M.C. Marconi, J.J. Rocca, C.S. Menoni, E.H. Anderson, W. Chao, B.D. Harteneck, J.A. Liddle, Y. Liu, and D.T. Attwood // Opt. Lett. – 2006. – Vol. 31, Issue 9. – P. 1214-1216.
  3. Vaschenko, G. Nano-imaging with a compact extreme ultraviolet laser / G. Vaschenko, F. Brizuela, C. Brewer, M. Grisham H. Mancini, C.S. Menoni, M.C. Marconi, J.J. Rocca, W. Chao, A. Liddle, E. Anderson, D. Attwood, A.V. Vinogradov, I.A. Artioukov, Y.P. Pershyn and V.V. Kondratenko // Opt. Lett. – 2005. – Vol. 30, Issue 16. – P. 2095-2097.
  4. High efficiency and low absorption Fresnel compound zone plates for hard X-ray focusing / M. Kuyumchyan, A. Isoyan, A. Shulakov, E. Aristov, V. Kondratenkov, M. Snigirev, A. Snigireva and I. Yabashi - http://arxiv.org/pdf/cs.OH/0503005, Cornell University, 2005.
  5. High efficiency and low absorption Fresnel compound zone plates for hard X-ray focusing / M. Kuyumchyan, A. Isoyan, A. Shulakov, E. Aristov, V. Kondratenkov, M. Snigirev, A. Snigireva, and I. Yabashi – http://arxiv.org/pdf/cs.OH/0503005, Cornell University, 2005.
  6. Aoki, S. The 8th International Conference on X-ray Microscopy and references therein / Eds.: S. Aoki, Y. Kagoshima, Y. Suzuki – Institute of Pure and Applied Physics, Tokyo, 2006.
  7. Chao, W.L. Soft X-ray microscopy at a spatial resolution better than 15 nm / Weilun Chao, Bruce D. Harteneck, J. Alexander Liddle, Erik H. Anderson1 & David T. Attwood // Nature, 2005. – Vol. 435, N 7046. – P. 1210-1213.
  8. Jefimovs, K. Zone-doubling technique to produce ultrahigh-resolution x-ray optics / K. Jefimovs, J. Vila-comamala, T. Pilvi, J. Raabe, M. Ritala, C. David // Phys. Rev. Lett. – 2007. – Vol. 99, N 26. – P. 264801.
  9. Barret, H.H. Fresnel zone plate imaging of gamma rays; theory / H.H. Barret, F.A. Horrigan // Appl. Opt. – 1973. – Vol. 12, N 11. – P. 2686-2702.
  10. Vinogradova, M.B. The theory of waves / M.B. Vinogradova, O.V. Rudenko, A.P. Suhorukov. – Moscow: “Nauka” Publisher, 1979. – 384 p.

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