Conceptual Design of the "Fast Processes" Beamline at the SRF SKIF 4th Generation Synchrotron - Conference attendances | Sciact - CRIS-system of Boreskov Institute of Catalysis

Conceptual Design of the "Fast Processes" Beamline at the SRF SKIF 4th Generation Synchrotron Conference attendances

Language

Английский

Participant type

Устный

Conference

International Conference "Synchrotron and Free electron laser Radiation: generation and application"
13-17 Jul 2020 , Novosibirsk

Authors

Rubtsov Ivan Andreevich

^1,2 , Ten Konstantin Alekseevich ¹ , Pruuel Eduard Reinovich ¹ , Kashkarov Alexey ¹ , Arakcheev A. S. ³ , Tolochko Boris Petrovich

⁴ , Ancharov Aleksej Igorevich ⁴ , Zubavichus Yan Vitautasovich

² , Rakshun Ya. V. ^2,3 , Zolotarev Konstantin Vladimirovich

³ , Mezentsev Nikolay Aleksandrovich ³ , Shkaruba V A

³ , Trebushinin Andrei Evgenʹevich ³ , Khomyakov Yu. V. ³ , Shekhtman Lev Isaevich

³ , Zhulanov V. V. ³ , Aulʹchenko V. M. ³

Affiliations

1	M. A. Lavrentyv Institute of Hydrodynamics SB RAS
2	Boreskov Institute of Catalysis SB RAS
3	Budker Institute of Nuclear Physics SB RAS
4	Institute of Solid State Chemistry and Mechanochemistry SB RAS

“Fast Processes” is one out of six 1st priority beamlines that are planned for construction within the project SRF SKIF (Shared Research Facility “Siberian circular photon source") [1]. The beamline would include two independent instruments installed at a wiggler source, i.e., Dynamic processes and Plasma. The beamline is designed to meet a wide range of research and technological challenges related to processes occurring in nano- and microsecond timescales. The current conceptual design of the beamline aims at a complex approach to structural studies of various objects relying on high-brightness synchrotron radiation beams. The beamline would implement X-ray diffraction, small-angle scattering, and radiography techniques with a high temporal resolution, with a typical delay between frames down to 2.8 ns and exposures of about 50 ps. The assortment of scientific problems to be solved at the beamline includes studies of detonation processes; impact of explosion and shock waves on structural materials; dynamic endurance and fracture emergence; influence of laser irradiation and plasma on a variety of substances. The aforementioned synchrotron-based techniques will allow us to track structural changes along the detonation and shock-wave front, detect the formation of nanoparticles from explosion products (e.g., nanodiamonds), and elucidate the phase composition and local structure of substances subjected to extreme dynamic impacts. [1] http://srf-skif.ru

Rubtsov I.A. , Ten K.A. , Pruuel E.R. , Kashkarov A. , Arakcheev A.S. , Tolochko B.P. , Ancharov A.I. , Zubavichus Y.V. , Rakshun Y.V. , Zolotarev K.V. , Mezentsev N.A. , Shkaruba V.A. , Trebushinin A.E. , Khomyakov Y.V. , Shekhtman L.I. , Zhulanov V.V. , Aulʹchenko V.M.
Conceptual Design of the "Fast Processes" Beamline at the SRF SKIF 4th Generation Synchrotron
International Conference "Synchrotron and Free electron laser Radiation: generation and application" 13-17 Jul 2020