D. S. Shichkov's research while affiliated with Budker Institute of Nuclear Physics and other places
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Publications (10)
The National Synchrotron Light Source II is a third generation light source, which was constructed at Brookhaven National Laboratory. This project includes a highly-optimized 3 GeV electron storage ring, linac preinjector, and full-energy synchrotron injector. Budker Institute of Nuclear Physics built and delivered the booster for NSLS-II. The comm...
The National Synchrotron Light Source II is a third generation light source under construction at Brookhaven National Laboratory. The project includes a highly optimized 3 GeV electron storage ring, linac pre-injector and full-energy booster-synchrotron. Budker Institute of Nuclear Physics builds booster for NSLS-II. The booster should accelerate t...
Strict requirements are imposed on the field quality of magnetic elements in today's synchrotron radiation sources. For example, magnetic field harmonics of quadrupole lenses (currently manufactured in BINP) of main ring NSLS-II, should have no more than one or two ten-thousandths parts of main harmonic at the 75% of lens aperture. The stand is des...
The quality requirements for magnetic field of elements in modern particle accelerators are high. For example, the harmonic fields quadrupole lenses main ring synchrotron source NSLS-II manufactured in BINP SB RAS must have no more than 1÷2-10-4 from the field at 75% of the aperture of the lens. In the production process of magnetic lenses to adjus...
At the end of 2009, an extremely low horizontal emittance of 1 nm rad was achieved at the PETRA-III storage ring (Hamburg), a new third-generation SR source with an energy of 6 GeV, which offers new opportunities for SR experiments. Such an emittance was achieved through the efficient operation of a 4-m permanent magnet, with damping wigglers insta...
The Petra III synchrotron radiation source was developed based on the Petra-II 6-GeV electron accelerator (DESY). After installing the system for radiation damping, the horizontal emittance of the electron beam of Petra III decreased from 5 nm rad to 1 nm rad, which is a record parameter for this class of installations. The system of radiation damp...
Contribution to a conf. proceeding (book/online)
The article describes a model of permanent magnet wiggler (PMWM) to reduce the emittance of accelerator Petra III. The PMWM model is one wiggler period (the period λ=0.2m; the distance between the poles is 0.024m and the maximal magnitude of magnetic field B is 1.5T).BINP SB RAS have developed and manufactured a system to measure magnetic moment of...
The article describes a prototype of the permanent magnet (PM) wiggler to reduce the emittance of the accelerator Petra III. The wiggle has the following parameters: the length is 4.04m; the pole gap is 0.024m and the maximal field is B=1.56T; the wiggler has 20 periods with λ=0.2m.
Citations
... Electron linac with the energy of 200 MeV is similar to that of the Injection complex VEPP-5 [1]. The booster synchrotron with the maximum energy of 3 GeV is a modification of the synchrotron designed by BINP for NSLS II [2]. ...
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... The original design of the absorber chamber [5] will be modified into an exit chamber by introducing a cut-out of 3mm x 2mm (horizontal x vertical) in size. Since the damping wiggler [6] is a fixed gap design, a mask system and a high-power shutter are needed to protect the first vacuum valve in the frontend. All other downstream components, i.e. slit systems, dump magnet, filter units, and Bremsstrahlung shutter are generic PETRA III systems. ...
