Propagation of 10-keV electrons through glass macrocapillaries


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Resumo

The features of 10-keV electron propagation through a cylindrical channel made of borosilicate glass are experimentally studied. Experimental results indicate that a fast electron beam can be controlled using tapered capillaries fabricated from the given material. The charge distribution formed inside the channel provides conditions under which no less than 20% of beam electrons pass through the channel without considerable energy losses even if the inclination angles exceed the geometric angle of transmission.

Sobre autores

K. Vokhmyanina

Belgorod National Research University

Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

A. Kaplii

Belgorod National Research University

Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

V. Sotnikova

Belgorod National Research University

Autor responsável pela correspondência
Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

I. Kishchin

Belgorod National Research University

Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

A. Kubankin

Belgorod National Research University

Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

R. Nazhmudinov

Belgorod National Research University

Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

A. Oleinik

Belgorod National Research University

Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

A. Sotnikov

Belgorod National Research University

Email: ultra5310@rambler.ru
Rússia, Belgorod, 308015

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