Open AccessTwo-dimensional single crystal diamond refractive x-ray lens
Author(s) -
Sergey Antipov,
Sergey V. Baryshev,
J. E. Butler,
Olga Antipova,
Z. Liu,
Stanislav Stoupin
Publication year - 2016
Publication title -
aip conference proceedings
Language(s) - English
Resource type - Conference proceedings
eISSN - 1551-7616
pISSN - 0094-243X
DOI - 10.1063/1.4952889
Subject(s) - optics , diamond , materials science , refractive index , laser , lens (geology) , x ray optics , refraction , optoelectronics , radiation , advanced photon source , crystal (programming language) , diffraction , femto , synthetic diamond , x ray , particle accelerator , physics , beam (structure) , computer science , composite material , programming language , nuclear physics
The next generation light sources such as diffraction-limited storage rings and high repetition rate x-ray free-electron lasers will generate x-ray beams with significantly increased brilliance. These future machines will require X-ray optical components that are capable of handling higher instantaneous and average power densities while tailoring the properties of the x-ray beams for a variety of scientific experiments. Single crystal diamond is one of the best bulk materials for this application, because it is radiation hard, has a suitable uniform index of refraction and the best available thermal properties. In this paper we report on fabrication and experimental testing of a two-dimensional (2D) single crystal diamond compound refractive X-ray lenses (CRL). These lenses were manufactured using femto-second laser cutting and tested at the Advanced Photon Source of Argonne National Laboratory.
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