Single-shot fast cinematic imaging during merging process of multiple electron filaments in electrostatic potential well

Okada, T.; Himura, H.; Nakajima, Y.; Sanpei, A.

doi:10.1063/5.0181102

Review of Scientific Instruments

2024

DOI: 10.1063/5.0181102

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Single-shot fast cinematic imaging during merging process of multiple electron filaments in electrostatic potential well

T. Okada,

H. Himura,

Y. Nakajima

et al.

Abstract: For the first time, details of the spatial and temporal acceptable evolution of the merging process of co-rotating electron vortices in a potential well are successfully captured using a “single-shot method” with a high temporal resolution of 10 µs. Four-electron filaments are trapped inside the Beam eXperiment-Upgrade linear trap [H. Himura, Nucl. Instrum. Methods Phys. Res. A 811, 100 (2016)] with a uniform axial magnetic field and co-axial multi-ring electrodes. Images of non-emitting electron filaments are… Show more

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Controlling the initial separation distance between two electron plasma vortices in a Malmberg–Penning trap

Ogawa,

Nakajima,

Sanpei

et al. 2024

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This paper presents a novel method to continuously control the initial separation distance d between two plasma vortices of electrons. In this method, the two electron columns are initially confined individually in two coaxial Malmberg–Penning traps with different axial lengths. They rotate around the trap axis at different rotation frequencies due to the drift. Their different rotation rates cause periodic changes in their relative azimuthal positions. The initial conditions are established when the two columns are stretched along magnetic field lines of a unified Malmberg–Penning trap. This method precisely provides a simple and continuous adjustment of the initial d and facilitates efficient investigation of the interaction of the two plasma electron vortices.

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Controlling the initial separation distance between two electron plasma vortices in a Malmberg–Penning trap

Ogawa,

Nakajima,

Sanpei

et al. 2024

Sci Rep

View full text Add to dashboard Cite

show abstract

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Single-shot fast cinematic imaging during merging process of multiple electron filaments in electrostatic potential well

Cited by 1 publication

References 48 publications

Controlling the initial separation distance between two electron plasma vortices in a Malmberg–Penning trap

Controlling the initial separation distance between two electron plasma vortices in a Malmberg–Penning trap

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