Mikhail Nozdrin scite author profile

Mikhail Nozdrin

5Publications

87Citation Statements Received

28Citation Statements Given

How they've been cited

114

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Affiliations

Joint Institute for Nuclear Research, Deutsches Elektronen-Synchrotron DESY

Publications

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Experimentally minimized beam emittance from anL-band photoinjector

Krasilnikov¹,

Stephan²,

Asova³

et al. 2012

Phys. Rev. ST Accel. Beams

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High brightness electron sources for linac based free-electron lasers (FELs) are being developed at the Photo Injector Test facility at DESY, Zeuthen site (PITZ). Production of electron bunches with extremely small transverse emittance is the focus of the PITZ scientific program. The photoinjector optimization in 2008-2009 for a bunch charge of 1, 0.5, 0.25, and 0.1 nC resulted in measured emittance values which are beyond the requirements of the European XFEL [S. Rimjaem et al., Nucl. Instrum. Methods Phys. Res., Sect. A 671, 62 (2012)]. Several essential modifications were commissioned in 2010-2011 at PITZ, resulting in further improvement of the photoinjector performance. Significant improvement of the rf gun phase stability is a major contribution in the reduction of the measured transverse emittance. The old TESLA prototype booster was replaced by a new cut disk structure cavity. This allows acceleration of the electron beam to higher energies and supports much higher flexibility for stable booster operation as well as for longer rf pulses which is of vital importance especially for the emittance optimization of low charge bunches. The transverse phase space of the electron beam was optimized at PITZ for bunch charges in the range between 0.02 and 2 nC, where the quality of the beam measurements was preserved by utilizing long pulse train operation. The experimental optimization yielded worldwide unprecedented low normalized emittance beams in the whole charge range studied.

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Optimizations of transverse projected emittance at the photo-injector test facility at DESY, location Zeuthen

Rimjaem

Stephan

Krasilnikov

et al. 2012

Nuclear Instruments and Methods in Physics Research Section A:

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a b s t r a c tHigh brightness electron sources for linac based short-wavelength free-electron lasers are developed and optimized for small transverse projected emittance at the photo-injector test facility at DESY, location Zeuthen (PITZ). A major part of the measurement program at PITZ is dedicated to transverse phase space optimization in order to fulfill the requirements of the European X-ray free-electron laser (European XFEL). A laser-driven RF-gun, treated with a dry-ice sublimation-impulse cleaning technique, a new photocathode laser system allowing short rise and fall times of the flat-top temporal distribution as well as several new diagnostic components have been installed at PITZ in 2008. The electrons generated via the photo-effect at a cesium telluride (Cs 2 Te) cathode are accelerated by a 1.6 cell L-band RF-gun cavity with a maximum accelerating gradient at the cathode of about 60 MV/m. The transverse projected emittance is measured using a single slit scan technique. In the 2008-2009 run period, a detailed characterization of the projected transverse emittance was performed at different operating conditions. Optimizations and measurement results as well as simulation predictions of the transverse projected emittance for bunch charges of 1, 0.5, 0.25 and 0.1 nC are presented and discussed in this paper. The geometric mean of the normalized projected rms emittance in both transverse directions for an electron bunch charge of 1 nC was measured to be 0.8970.01 mm mrad for a 100% rms phase-space distribution.

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Design of the New Control System for Linac-200

Nozdrin

Kobets

Timonin

et al. 2020

Phys. Part. Nuclei Lett.

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The construction of an experimental facility with test electron beams is under way at the Dzhelepov Laboratory of Nuclear Problems at the Joint Institute for Nuclear Research (Dubna, Russia). The facility is based on the MEA accelerator that was transferred from NIKHEF to JINR at the beginning of the 2000s. Despite the long service life of the accelerator, it is in good condition and still has a significant operation potential. The linac is being commissioned and the first 200-MeV beam has been generated. For now, the machine is controlled by a set of standalone subsystems that were created as required. Certain systems (e.g., vacuum) are controlled and monitored locally. However, a global control system is required to operate the accelerator as a user facility. The system requirements are formulated in this paper. The key issues of controlling the accelerator and its auxiliary (evacuation, cooling, etc.) systems are considered. The design of a new Tango-based control system of the Linac-200 is presented.

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On radiation protection at the LINAC-800 linear electron accelerator

Balalykin

Minashkin

Nozdrin

et al. 2012

Phys. Part. Nuclei Lett.

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Control system of injector for linear electron accelerator LINAC-800

Balalykin

Minashkin

Nozdrin

et al. 2010

Phys. Part. Nuclei Lett.

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Mikhail Nozdrin

Experimentally minimized beam emittance from anL-band photoinjector

Optimizations of transverse projected emittance at the photo-injector test facility at DESY, location Zeuthen

Design of the New Control System for Linac-200

On radiation protection at the LINAC-800 linear electron accelerator

Control system of injector for linear electron accelerator LINAC-800

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