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Use of synchrotron radiation: status and future plans

Abstract

Modern possibilities of synchrotronous radiation (SR) sources are reviewed. The ways are considered of further development and main fields of application of this class of radiation sources. A wide energy range from 10 eV to 100 keV makes it possible to overlap the whole range of characteristic atomic energies higher than that of a laser. The great brightness of SR permits experiments for a short period of time with high energy resolution Natural SR polarization helps to study spatial anisotropy of objects. Time SR modulation allows to study time characteristics of luminescence, to measure energy of photoelectrons during flight. Perspective is shown of using SR in contact microscopy, X-ray topography, projecting microscopy, scanning and holographic microscopy. Using the full spectrum, it becomes possible to use SR for X-ray structural analysis. Employment of SR for excitation of emission spectra of various elements enables study of electron structure of disperse systems. SR is widely used to investigate the mechanism of luminescence excitation in crystals in the region of vacuum ultraviolet. New possibilities are provided by time and polarization structure of SR for the Moessbauer experiments. Wide range of experiments with SR in the fields of physics, chemistry, biology provides usage of the  More>>
Authors:
Kulipanov, G N; Skrinskii, A N [1] 
  1. AN SSSR, Novosibirsk. Inst. Yadernoj Fiziki
Publication Date:
Jul 01, 1977
Product Type:
Journal Article
Reference Number:
AIX-09-408440; EDB-79-038411
Resource Relation:
Journal Name: Usp. Fiz. Nauk; (USSR); Journal Volume: 122:3
Subject:
43 PARTICLE ACCELERATORS; SYNCHROTRON RADIATION; USES; ELECTRONIC STRUCTURE; EV RANGE; KEV RANGE 01-10; KEV RANGE 10-100; MEDICINE; MICROSCOPY; MOESSBAUER EFFECT; PLANNING; POLYMERIZATION; REVIEWS; STORAGE RINGS; STRUCTURAL CHEMICAL ANALYSIS; BREMSSTRAHLUNG; CHEMICAL REACTIONS; DOCUMENT TYPES; ELECTROMAGNETIC RADIATION; ENERGY RANGE; KEV RANGE; RADIATIONS; 430100* - Particle Accelerators- Design, Development, & Operation
OSTI ID:
6372144
Country of Origin:
USSR
Language:
Russian
Other Identifying Numbers:
Journal ID: CODEN: UFNAA
Submitting Site:
INIS
Size:
Pages: 369-418
Announcement Date:
Nov 01, 1978

Citation Formats

Kulipanov, G N, and Skrinskii, A N. Use of synchrotron radiation: status and future plans. USSR: N. p., 1977. Web.
Kulipanov, G N, & Skrinskii, A N. Use of synchrotron radiation: status and future plans. USSR.
Kulipanov, G N, and Skrinskii, A N. 1977. "Use of synchrotron radiation: status and future plans." USSR.
@misc{etde_6372144,
title = {Use of synchrotron radiation: status and future plans}
author = {Kulipanov, G N, and Skrinskii, A N}
abstractNote = {Modern possibilities of synchrotronous radiation (SR) sources are reviewed. The ways are considered of further development and main fields of application of this class of radiation sources. A wide energy range from 10 eV to 100 keV makes it possible to overlap the whole range of characteristic atomic energies higher than that of a laser. The great brightness of SR permits experiments for a short period of time with high energy resolution Natural SR polarization helps to study spatial anisotropy of objects. Time SR modulation allows to study time characteristics of luminescence, to measure energy of photoelectrons during flight. Perspective is shown of using SR in contact microscopy, X-ray topography, projecting microscopy, scanning and holographic microscopy. Using the full spectrum, it becomes possible to use SR for X-ray structural analysis. Employment of SR for excitation of emission spectra of various elements enables study of electron structure of disperse systems. SR is widely used to investigate the mechanism of luminescence excitation in crystals in the region of vacuum ultraviolet. New possibilities are provided by time and polarization structure of SR for the Moessbauer experiments. Wide range of experiments with SR in the fields of physics, chemistry, biology provides usage of the above radiation in metrology, medicine etc.}
journal = []
volume = {122:3}
journal type = {AC}
place = {USSR}
year = {1977}
month = {Jul}
}