排序方式: 共有7条查询结果,搜索用时 125 毫秒
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K. V. Astrelina M. F. Blinov T. A. Vsevolozhskaya N. S. Dikanskii F. A. Emanov R. M. Lapik P. V. Logachev P. V. Martyshkin A. V. Petrenko T. V. Rybitskaya A. N. Skrinskii S. V. Shiyankov T. A. Yaskina 《Journal of Experimental and Theoretical Physics》2008,106(1):77-93
A source of positrons allowing 5 × 108 positrons accelerated to the energy of 70 MeV to be produced per pulse has been developed. The process of electron-positron pair production in an electromagnetic shower is used for production of positrons. The electromagnetic shower is generated in a tantalum target by a beam of 2 × 1010 electrons with energy 270 MeV. A high efficiency of positron collection (positron yield Y ≈ 0.1 GeV?1) is ensured by a unique design of the matching device. 相似文献
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P. V. Logachev O. I. Meshkov A. A. Starostenko D. A. Nikiforov A. V. Andrianov Yu. I. Maltseva A. E. Levichev F. A. Emanov 《Physics of Particles and Nuclei》2016,47(2):236-269
The basic techniques for nondestructive diagnostics and detection of losses of charged particle beams used in accelerator engineering are reviewed. The data provided may help choose the systems for diagnostics and detection of losses of beams and give a qualitative picture of the operation principles of such devices. Quantitative characteristics that define the limits of applicability of each diagnostic technique are outlined. 相似文献
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F. A. Emanov A. V. Andrianov K. V. Astrelina V. V. Balakin A. M. Barnyakov O. V. Belikov D. E. Berkaev M. F. Blinov Yu. M. Boimelshtain D. Yu. Bolkhovityanov N. S. Dikansky A. R. Frolov G. V. Karpov A. S. Kasaev A. A. Kondakov I. V. Kuptsov I. A. Koop G. Ya. Kurkin R. M. Lapik N. N. Lebedev A. E. Levichev Yu. I. Maltseva A. A. Murasev D. A. Nikiforov A. V. Pavlenko V. V. Rashchenko S. L. Samoylov S. V. Vasiliev I. M. Zemlyansky Yu. A. Rogovsky S. A. Krutikhin A. Yu. Martinovsky S. V. Motigin A. M. Pilan I. K. Sedliarov A. G. Tribendis 《Physics of Particles and Nuclei Letters》2018,15(7):720-723
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Balakin V. Astrelina K. Berkaev D. Emanov F. Rogovsky Yu. 《Physics of Particles and Nuclei Letters》2020,17(4):557-560
Physics of Particles and Nuclei Letters - Work on developing new software tools for monitoring and controlling the VEPP-5 damping-ring (DR) operation with upgraded stations of beam-position sensors... 相似文献
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Balakin V. Astrelina K. Petrenko A. Berkaev D. Emanov F. Meshkov O. Borin V. 《Physics of Particles and Nuclei Letters》2020,17(4):415-418
Physics of Particles and Nuclei Letters - The in-depth understanding of beam collective effects in the damping ring (DR) of the VEPP-5 injection complex at BINP is essential for optimizing its... 相似文献
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V. V. Balakin N. S. Vorobev D. V. Berkaev S. A. Glukhov P. B. Gornostaev V. L. Dorokhov Ma Xiao Chao O. I. Meshkov D. A. Nikiforov E. V. Shashkov F. A. Emanov K. V. Astrelina M. F. Blinov V. M. Borin 《Physics of Particles and Nuclei Letters》2018,15(2):164-167
The efficiency of injection from a linear accelerator into the damping ring of the BINP injection complex has been experimentally studied. The estimations of the injection efficiency are in good agreement with the experimental results. Our method of increasing the capture efficiency can enhance the productivity of the injection complex by a factor of 1.5–2. 相似文献
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Astrelina K. Andrianov A. Balakin V. Barnyakov A. Belikov O. Berkaev D. Blinov M. Boymelshteyn Yu. Bolkhovityanov D. Borin V. Butakov A. Vasilev S. Emanov F. Karpov G. Kasaev A. Kondakov A. Koop I. Kot N. Kurkin G. Lapik R. Lebedev N. Levichev A. Maltseva Yu. Martynovskiy A. Martyshkin P. Meshkov O. Motygin S. Murasev A. Myslivets V. Nikiforov D. Pilan A. Rogovsky Yu. Samoylov S. Tribendis A. Frolov A. Tsyganov A. 《Physics of Particles and Nuclei Letters》2020,17(4):409-414
Physics of Particles and Nuclei Letters - The VEPP-5 injection complex, consisting of two linacs and a damping storage ring, delivers electron and positron beams to the VEPP-4M and VEPP-2000... 相似文献
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