Moscow State University CW race-track microtron status

Shvedunov, V.I.; Alimov, A.S.; Chepurnov, A.; Chubarov, O.V.; Gribov, I.V.; Ishkhanov, B. S.; Surma, I.V.; Tiunov, Alexei V.

doi:10.1109/pac.1993.309222

Cited by 4 publications

(2 citation statements)

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“…Для решения этой проблемы предлагается использовать разрезный микротрон, который может работать в непрерывном режиме [134][135][136]. Принцип действия микротрона похож на принцип действия классического циклотрона, где величина магнитного поля и частота ускоряющего поля постоянны.…”

Section: инспекция C помощью непрерывного излученияunclassified

Перспективные Технологии Для Прикладных Резонансных Ускорителей Заряженных Частиц И Примеры Их Использования (Обзор)

Kutsaev

2021

Журнал Технической Физики

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This paper presents the author’s vision on current and future trends in RF particle accelerators development for industrial applications, based on his own work experience in this area. This review covers the most interesting and promising area of applications, according to author’s point of view, where a significant progress has been or can be achieved thanks to the novel technologies. In particular, high gradient structures, new materials and fabrication techniques, cryogenic systems and novel acceleration schemes led to miniaturization, efficiency and variability of the accelerators for industrial, medical, security and scientific applications, and even quantum computers.

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Section: инспекция C помощью непрерывного излученияunclassified

Перспективные Технологии Для Прикладных Резонансных Ускорителей Заряженных Частиц И Примеры Их Использования (Обзор)

Kutsaev

2021

Журнал Технической Физики

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“…This paper is based on the experience of developing and constructing various types of RTM at the Skobeltsyn Institute of Nuclear Physics at Lomonosov Moscow State University in cooperation with research groups from Russia and other countries [10,[15][16][17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Racetrack Microtron—Pushing the Limits

et al. 2021

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We consider three types of electron accelerators that can be used for various applications, such as industrial, medical, cargo inspection, and isotope production applications, and that require small- and medium-sized machines, namely classical microtron (CM), race-track microtron (RTM), and multisection linac. We review the principles of their operation, the specific features of the beam dynamics in these machines, discuss their advantages and weak points, and compare their technical characteristics. In particular, we emphasize the intrinsic symmetry of the stability region of microtrons. We argue that RTMs can be a preferable choice for medium energies (up to 100 MeV) and that the range of their potential applications can be widened, provided that the beam current losses are significantly reduced. In the article, we analyze two possible solutions in detail, namely increasing the longitudinal acceptance of an RTM using a higher-order harmonic accelerating structure and improving beam matching at the injection.

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