Study of the possibility for increasing the emission of soft x-rays from the plasma of a low-energy vacuum discharge triggered by a laser

Romanov, I. V.; Tsygvintsev, I. P.; Kologrivov, A. A.; Paperny, V. L.; Vichev, Ilia Yurievich; Grushin, A. S.

doi:10.1088/1361-6587/ab362e

Cited by 5 publications

(1 citation statement)

References 40 publications

(58 reference statements)

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“…2), что позволяет сделать заключение о наличии связи процесса пинчевания струи с эмис-сией пучков аномально ускоренных электронов. При этом в случае увеличения J величина разрядного тока, вероятно, оказывается недостаточной для реализации финальной стадии процесса пинчевания и разрыва токового канала, при этом плотность плазмы в перетяжке растет [12], амплитуда особенностей на токовых сигналах уменьшается, ускорение электронов/ионов падает. При малой энергии J плазменная шуба практически отсутствует, и величина разрядного тока оказывается достаточной для формирования микропинча, последующий развал которого приводит к частичному обрыву токового канала и ограничению токопереноса.…”

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Пучки Аномально Ускоренных Электронов, Эмитируемые Плазмой Вакуумного Разряда С Лазерным Поджигом

Романов¹,

Паперный²,

Кологривов³

et al. 2021

Письма В Журнал Технической Физики

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It is shown experimentally that a low-power pinch vacuum discharge with laser ignition can emit a beam of abnormally accelerated electrons with maximum energies per unit charge, almost an order of magnitude higher than the voltage across the discharge gap. It is established that the intensity of the X-ray radiation generated by the action of the beam on the target significantly decreases with increasing laser pulse energy. Maximum energy of X-ray quanta is inversely proportional to the mass of the cathode material ablated by laser radiation when the discharge is ignited. Possible mechanisms of the electron beam generation process are discussed.

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Пучки Аномально Ускоренных Электронов, Эмитируемые Плазмой Вакуумного Разряда С Лазерным Поджигом

Романов¹,

Паперный²,

Кологривов³

et al. 2021

Письма В Журнал Технической Физики

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Elongated long-lived jet of dense plasma produced by a hollow laser beam

2021

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Numerical simulation of the dynamics of plasma jets planned for use for the initiation of vacuum pinch discharges has been carried out. Jets of the “laser-metal-plasma-liner” type are created by laser beams with different spatial intensity distributions, which irradiate targets of various configurations. The three variants of plasma-jets formation are considered: irradiation of a target by (i) a Gaussian beam from a neodymium laser, (ii) the same Gaussian beam incident on a hole in the target, and (iii) a beam with the intensity distribution of the Laguerre–Gaussian mode. The dynamics of spatial distributions of the electron density, jet plasma temperatures, and the target mass ablated by laser radiation is calculated. It is shown that for quite moderate laser beam energies and intensities ∼400 mJ and ∼109 W/cm2, respectively, in the second and third cases, jets are produced with the lifetime of a few tens of nanoseconds and the maximum density ∼1019 and 1021 cm−3, respectively. The use of such jets can increase the pinching efficiency and improve plasma parameters in laser-induced discharges.

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Emission of anomalously hard x-ray radiation by a target upon exposition with an electron beam, ejected by a low-energy vacuum discharge with laser ignition

et al. 2022

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The characteristics of x-ray radiation of a target that is bombarded by a beam of accelerated electrons ejected by a low-power vacuum discharge with laser ignition are studied. It is shown that the maximum radiation energy exceeds the applied potential difference across the discharge gap by almost an order of magnitude and is inversely proportional to the mass of the cathode material ablated by laser radiation. The energy spectrum of x-ray radiation reconstructed from the radiation attenuation curve by filters-absorbers of various thicknesses showed that in the maximum acceleration mode the average energy of the main part of the spectrum is more than four times higher than the voltage across the discharge gap at the moment of beam emission. Possible mechanisms providing anomalous acceleration of electrons in the discharge are considered.

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Study of the possibility for increasing the emission of soft x-rays from the plasma of a low-energy vacuum discharge triggered by a laser

Cited by 5 publications

References 40 publications

Пучки Аномально Ускоренных Электронов, Эмитируемые Плазмой Вакуумного Разряда С Лазерным Поджигом

Пучки Аномально Ускоренных Электронов, Эмитируемые Плазмой Вакуумного Разряда С Лазерным Поджигом

Elongated long-lived jet of dense plasma produced by a hollow laser beam

Emission of anomalously hard x-ray radiation by a target upon exposition with an electron beam, ejected by a low-energy vacuum discharge with laser ignition

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