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Bibliographic Details
Main Authors: Leger, M., Giglio, E., Guillous, S., Houel, A.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.09374
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author Leger, M.
Giglio, E.
Guillous, S.
Houel, A.
author_facet Leger, M.
Giglio, E.
Guillous, S.
Houel, A.
contents A proof of concept of an ion source using a molten salt mixture rich in Cs and O ions, able to emit an ion current both in positive and negative polarities, is presented. Similar to liquid metal ion sources, the ions of the salt are emitted by field evaporation from a Taylor cone formed under the influence of an intense electric field. In contrast to an "open" source design in which the conducting liquid covers the surface of a metallic needle, the presented setup uses a conical glass capillary as an emitter tip. {\ffcol The latter is observed by a camera, which revealed the formation of a bubble in the tip containing the molten salt. A glow was also observed during beam emission revealing the anchoring point of the stressed meniscus.} A stable ion beam emission of about 50 min and an intensity of several $μ$A was obtained. The behavior of the molten salt mixture in vacuum conditions is discussed, as its properties are essential to the design of the presented ion source.
format Preprint
id arxiv_https___arxiv_org_abs_2412_09374
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Molten salt ion source using glass capillaries as emitter
Leger, M.
Giglio, E.
Guillous, S.
Houel, A.
Materials Science
Instrumentation and Detectors
A proof of concept of an ion source using a molten salt mixture rich in Cs and O ions, able to emit an ion current both in positive and negative polarities, is presented. Similar to liquid metal ion sources, the ions of the salt are emitted by field evaporation from a Taylor cone formed under the influence of an intense electric field. In contrast to an "open" source design in which the conducting liquid covers the surface of a metallic needle, the presented setup uses a conical glass capillary as an emitter tip. {\ffcol The latter is observed by a camera, which revealed the formation of a bubble in the tip containing the molten salt. A glow was also observed during beam emission revealing the anchoring point of the stressed meniscus.} A stable ion beam emission of about 50 min and an intensity of several $μ$A was obtained. The behavior of the molten salt mixture in vacuum conditions is discussed, as its properties are essential to the design of the presented ion source.
title Molten salt ion source using glass capillaries as emitter
topic Materials Science
Instrumentation and Detectors
url https://arxiv.org/abs/2412.09374