Testing an indirectly heated cathode ion source: Temperature and thermionic emission
Here we compare the cathode surface temperatures and thermionic emissions of a novel thermal barrier cathode against original equipment manufacturing (OEM). The new indirectly heated cathode ion source assembly employs a cathode cup unit and filament arrangement, where the filament has a flat face t...
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| Format: | Article |
| Language: | English |
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AIP Publishing LLC
2019-10-01
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| Series: | AIP Advances |
| Online Access: | http://dx.doi.org/10.1063/1.5123553 |
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doaj-d20912a8aae54735ae90c8f0f03e96862020-11-25T00:07:24ZengAIP Publishing LLCAIP Advances2158-32262019-10-01910105202105202-810.1063/1.5123553019910ADVTesting an indirectly heated cathode ion source: Temperature and thermionic emissionC. F. M. Borges0M. A. Jerez1A. Parizat2Ion Technology Solutions, 267 East Jericho Turnpike, Mineola, New York 11501, USAIon Technology Solutions, 267 East Jericho Turnpike, Mineola, New York 11501, USAIon Technology Solutions, 267 East Jericho Turnpike, Mineola, New York 11501, USAHere we compare the cathode surface temperatures and thermionic emissions of a novel thermal barrier cathode against original equipment manufacturing (OEM). The new indirectly heated cathode ion source assembly employs a cathode cup unit and filament arrangement, where the filament has a flat face that is separated from the cup-shaped cathode body. The filament is placed in a space that is surrounded by a thermal barrier to reduce thermal losses. The thermal barrier is formed by a plurality of concentric foils that are closely spaced. We observed an improvement on the cathode surface temperature and thermionic emission relative to OEM. The addition of the thermal barrier in combination with the large cathode surface area increased the thermionic emission.http://dx.doi.org/10.1063/1.5123553 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
C. F. M. Borges M. A. Jerez A. Parizat |
| spellingShingle |
C. F. M. Borges M. A. Jerez A. Parizat Testing an indirectly heated cathode ion source: Temperature and thermionic emission AIP Advances |
| author_facet |
C. F. M. Borges M. A. Jerez A. Parizat |
| author_sort |
C. F. M. Borges |
| title |
Testing an indirectly heated cathode ion source: Temperature and thermionic emission |
| title_short |
Testing an indirectly heated cathode ion source: Temperature and thermionic emission |
| title_full |
Testing an indirectly heated cathode ion source: Temperature and thermionic emission |
| title_fullStr |
Testing an indirectly heated cathode ion source: Temperature and thermionic emission |
| title_full_unstemmed |
Testing an indirectly heated cathode ion source: Temperature and thermionic emission |
| title_sort |
testing an indirectly heated cathode ion source: temperature and thermionic emission |
| publisher |
AIP Publishing LLC |
| series |
AIP Advances |
| issn |
2158-3226 |
| publishDate |
2019-10-01 |
| description |
Here we compare the cathode surface temperatures and thermionic emissions of a novel thermal barrier cathode against original equipment manufacturing (OEM). The new indirectly heated cathode ion source assembly employs a cathode cup unit and filament arrangement, where the filament has a flat face that is separated from the cup-shaped cathode body. The filament is placed in a space that is surrounded by a thermal barrier to reduce thermal losses. The thermal barrier is formed by a plurality of concentric foils that are closely spaced. We observed an improvement on the cathode surface temperature and thermionic emission relative to OEM. The addition of the thermal barrier in combination with the large cathode surface area increased the thermionic emission. |
| url |
http://dx.doi.org/10.1063/1.5123553 |
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AT cfmborges testinganindirectlyheatedcathodeionsourcetemperatureandthermionicemission AT majerez testinganindirectlyheatedcathodeionsourcetemperatureandthermionicemission AT aparizat testinganindirectlyheatedcathodeionsourcetemperatureandthermionicemission |
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