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Kvantovaya Elektronika, 2017, Volume 47, Number 4, Pages 385–392 (Mi qe16593)  

This article is cited in 23 scientific papers (total in 23 papers)

Optical elements

Laboratory reflectometer for the investigation of optical elements in a wavelength range of 5 – 50 nm: description and testing results

S. A. Garakhin, I. G. Zabrodin, S. Yu. Zuev, I. A. Kas'kov, A. Ya. Lopatin, A. N. Nechai, V. N. Polkovnikov, N. N. Salashchenko, N. N. Tsybin, N. I. Chkhalo, M. V. Svechnikov

Institute for Physics of Microstructures, Russian Academy of Sciences, Nizhnii Novgorod
References:
Abstract: We describe a laboratory reflectometer developed at the IPM RAS for precision measurements of spectral and angular dependences of the reflection and transmission coefficients of optical elements in a wavelength range of 5 – 50 nm. The radiation is monochromatised using a high-resolution Czerny–Turner spectrometer with a plane diffraction grating and two spherical collimating mirrors. A toroidal mirror focuses the probe monochromatic beam on a sample. The X-ray source is a highly ionised plasma produced in the interaction of a high-power laser beam with a solid target at an intensity of 1011 – 1012 W cm-2. To stabilise the emission characteristics, the target executes translatory and rotary motions in such a way that every pulse irradiates a new spot. The short-focus lens is protected from contamination by erosion products with the use of a specially designed electromagnetic system. The samples under study are mounted on a goniometer is accommodated in a dedicated chamber, which provides five degrees of freedom for samples up to 500 mm in diameter and two degrees of freedom for a detector. The sample mass may range up to 10 kg. The X-ray radiation is recorded with a detector composed of a CsI photocathode and two microchannel plates. A similar detector monitors the probe beam intensity. The spectral reflectometer resolution is equal to 0.030 nm with the use of ruled gratings with a density of 900 lines mm-1 (spectral range: 5 – 20 nm) and to 0.067 nm for holographic gratings with a density of 400 lines mm-1 (spectral range: 10 – 50 nm). We analyse the contribution of higher diffraction orders to the probe signal intensity and the ways of taking it into account in the measurements. Examples are given which serve to illustrate the reflectometer application to the study of multilayer mirrors and filters.
Keywords: reflectometer, goniometer, soft X-ray radiation, extreme ultraviolet radiation, laser-produced plasma, multilayer mirror.
Received: 06.02.2017
Revised: 09.03.2017
English version:
Quantum Electronics, 2017, Volume 47, Issue 4, Pages 385–392
DOI: https://doi.org/10.1070/QEL16300
Bibliographic databases:
Document Type: Article
Language: Russian


Citation: S. A. Garakhin, I. G. Zabrodin, S. Yu. Zuev, I. A. Kas'kov, A. Ya. Lopatin, A. N. Nechai, V. N. Polkovnikov, N. N. Salashchenko, N. N. Tsybin, N. I. Chkhalo, M. V. Svechnikov, “Laboratory reflectometer for the investigation of optical elements in a wavelength range of 5 – 50 nm: description and testing results”, Kvantovaya Elektronika, 47:4 (2017), 385–392 [Quantum Electron., 47:4 (2017), 385–392]
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  • https://www.mathnet.ru/eng/qe16593
  • https://www.mathnet.ru/eng/qe/v47/i4/p385
  • This publication is cited in the following 23 articles:
    Citing articles in Google Scholar: Russian citations, English citations
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