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Description
The propagation of X-ray waves through an optical system consisting of many X-ray refractive lenses is considered. For solving the problem for an electromagnetic wave, a finite-difference method is applied.
The data show the result of numerical calculations of the X-ray intensity before the lens set, immediately after the 30 beryllium lenses and 100 intermediate states at a distance of 0.4 meters from the set of lenses. In total, the data consists of 102 tables, which are separated by brackets, each table consists of 5001 number pairs (points), of which the first number is responsible for the position (in millimeters), the second - for intensity values. Each pair of numbers is separated by a comma. Points are separated by brackets and commas.
The algorithm for computing the dataset is available in the paper: S. Kshevetskii, P. Wojda, V. Maximov, A high-accuracy complex-phase method of simulating X-ray propagation through a multi-lens system, J. Synchrotron Rad. (2016). 23, 1305–1314, https://doi.org/10.1107/S1600577516013333
Dataset file
hexmd5(md5(part1)+md5(part2)+...)-{parts_count} where a single part of the file is 512 MB in size.Example script for calculation:
https://github.com/antespi/s3md5
File details
- License:
-
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CC BYAttribution
Details
- Year of publication:
- 2020
- Verification date:
- 2020-12-17
- Creation date:
- 2016
- Dataset language:
- English
- Fields of science:
-
- mathematics (Natural sciences)
- DOI:
- DOI ID 10.34808/v4dy-gz27 open in new tab
- Verified by:
- Gdańsk University of Technology
Keywords
References
- publication A high-accuracy complex-phase method of simulating X-ray propagation through a multi-lens system
- dataset Data obtained by computation for X-ray focusing using oriented Gaussian beams
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