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Turning of Nonmonochromatic Electron Beams by Magnetic Mirrors
Instruments and Experimental Techniques ( IF 0.6 ) Pub Date : 2020-04-06 , DOI: 10.1134/s0020441220010182 V. V. Bezuglov , A. A. Bryazgin , A. Yu. Vlasov , L. A. Voronin , M. V. Korobeinikov , S. A. Maksimov , R. V. Melekhova , V. E. Nekhaev , A. V. Pak , V. M. Radchenko , A. V. Sidorov , V. O. Tkachenko , B. L. Faktorovich , E. A. Shtarklev
中文翻译:
电磁镜转向非单色电子束
更新日期:2020-04-06
Instruments and Experimental Techniques ( IF 0.6 ) Pub Date : 2020-04-06 , DOI: 10.1134/s0020441220010182 V. V. Bezuglov , A. A. Bryazgin , A. Yu. Vlasov , L. A. Voronin , M. V. Korobeinikov , S. A. Maksimov , R. V. Melekhova , V. E. Nekhaev , A. V. Pak , V. M. Radchenko , A. V. Sidorov , V. O. Tkachenko , B. L. Faktorovich , E. A. Shtarklev
Abstract—
A system for rotating nonmonochromatic electron beams consisting of two identical magnetic mirrors, is described. The distribution of the magnetic field along the depth of the mirrors is formed in such a way that an increase in the magnetic field at the entrance to the mirror follows its decline according to a certain law. As a result, it is possible to compensate for the angular divergences of nonmonochromatic electron beams in the gaps of the mirrors and to obtain a beam with phase characteristics close to the initial ones after rotation. Calculations and experimental test data of such a device are given when the electron beam is rotated through 180°.中文翻译:
电磁镜转向非单色电子束
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