Mathematical model of radiation-induced conductivity in quartz under the influence of high-power X-ray radiation | Zendy

I. A. Barykov | Zendy; Ilia Yurievich Vichev | Zendy; Yuri Aleksandrovich Volkov | Zendy; V.I. Zaytsev | Zendy; Nikita Vladimirovich Zalozhnyy | Zendy; V. M. Kanevskiy | Zendy; И. А. Тараканов | Zendy; V. A. Fedorov | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Mathematical model of radiation-induced conductivity in quartz under the influence of high-power X-ray radiation

Author(s) -

I. A. Barykov,

Ilia Yurievich Vichev,

Yuri Aleksandrovich Volkov,

V.I. Zaytsev,

Nikita Vladimirovich Zalozhnyy,

V. M. Kanevskiy,

И. А. Тараканов,

V. A. Fedorov

Publication year - 2021

Publication title -

keldysh institute preprints

Language(s) - English

Resource type - Journals

eISSN - 2071-2901

pISSN - 2071-2898

DOI - 10.20948/prepr-2021-18

Subject(s) - quartz , radiation , conductivity , surface conductivity , current (fluid) , materials science , physics , optics , computational physics , mechanics , thermodynamics , composite material , quantum mechanics

A model of generation and dynamics of radiation conductivity in quartz under the action of powerful soft X-ray radiation is constructed. The charge carrier dynamics model is based on the joint solution of self-consistent kinetic equations and Maxwell's equations. The model was verified by comparing the current calculations on the quartz surface with experiments on the Angara-5-1 thermonuclear installation. The current over the surface of the quartz sensor generated by a powerful pulse of soft X-ray radiation from the Angara-5-1 setup was taken as experimental data.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research