Специализированный источник синхротронного излучения Anka Характеристики и экспериментальные возможности.

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Специализированный источник синхротронного излучения Anka Характеристики и экспериментальные возможности.

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Специализированный источник синхротронного излучения Anka Характеристики и экспериментальные возможности

VEPP-3 and VEPP-4M Collider Complex Detector KEDR ROKK-1M

Siberian Synchrotron Radiation Center SSRC beamlines and experimental stations Storage ring VEPP-3 (2 GeV) SR beamline 1.0a “Explosion” – investigation of detonation processes and matter properties in the detonation front. 2.0b X-ray litography and LIGA technology at the beamline from the 11-pole wiggler. 3.2High-resolution diffractometry and anomalous scattering. 4.3“Baikal” – scanning X-ray fluorescent element analysis. 5.4High-pressure diffractometry. 6.5aX-ray microscopy and microtomography. 7.5bTime resolution diffractometry – diffraction movies. 8.5cMacromolecular crystallography. 9.5dInelastic scattering and small-angle scattering. 10.6Time resolution luminescence. 11.8EXAFS spectroscopy. 12.Soft X-ray metrology, EXAFS, lithography and surface desorption under SR irradiation. Storage ring VEPP-4M (5 GeV) SR beamline 3Time resolution diffractometry (under construction and testing). 7Energy dispersion diffractometry and Laue diffractometry (under construction and testing).

Self Propagation High Temperature Synthesis (SPHTS) of NiAl investigation by X-ray diffraction with the record 1 to 5 ms time resolution t = 0 ms t = 10 mst = 35 ms General view of SPHTSScheme of experiment with DED-5 detector developed at the Budker INP Ni+AlNiAlt = 20 ms

The unique submicrosecond diffractometry technique recently developed at SSRC, which allows to study the processes of detonation and behavior of matter in the detonation front. Two dimensional distribution of the SR intensity after the explosive sample SR explosive 1-coordinate rapid Detector DIMEX Station “Explosion'‘ at VEPP-3 for SR studies of detonation processes and properties of matter when passing the detonation front

Detonation front fine structure investigation SR beam with size 15 x 0.1 mm, exposure time 1 ns Explosive sample TNT with diameter 12 mm during detonation 750 ns X-ray intensity distribution after the sample Explosive