High Voltage Performance Degradation of the 14UD Tandem Accelerator

Linardakis, Peter; Battisson, Stephen; Bockwinkel, John; Graham, Brent; Heighway, Justin; Lobanov, Nikolai; Tsifakis, Dimitrios; Tunningley, Thomas

doi:10.18429/JACoW-HIAT2018-MOOYA01

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RIS citation export for MOOYA01: High Voltage Performance Degradation of the 14UD Tandem Accelerator

TY  - CONF
AU  - Linardakis, P.
AU  - Battisson, S.T.
AU  - Bockwinkel, J.A.
AU  - Graham, B.W.
AU  - Heighway, J.K.
AU  - Lobanov, N.R.
AU  - Tsifakis, D.
AU  - Tunningley, T.
ED  - Zhao, Hongwei
ED  - He, Yuan
ED  - Li, Lu
ED  - Schaa, Volker RW
TI  - High Voltage Performance Degradation of the 14UD Tandem Accelerator
J2  - Proc. of HIAT2018, Lanzhou, China, 22-26 October 2018
CY  - Lanzhou, China
T2  - International Conference on Heavy Ion Accelerator Technology
T3  - 14
LA  - english
AB  - The 14UD at the Australian National University’s Heavy Ion Accelerator Facility maintained a maximum operational voltage of 15.5 MV since the 1990s after the installation of tubes with a compressed geometry. In recent years, the performance of the accelerator has shown a gradual decline to a maximum operation voltage of ~14.5 MV. There are fundamental factors that limit the high voltage performance, such as the SF6 gas pressure, field enhancement due to triple junctions and total voltage effect. In addition, there are non-fundamental factors causing high voltage degradation. These are: operation with faulty ceramic gaps; operation at inappropriate voltage and SF6 pressure combinations; SF6 leaks into the vacuum space or use of SF6 and O2 as a stripper gases; poor electron suppression in the high energy stripper and frequent use of highly reactive ions such as Sulphur and Fluorine. In this paper we will discuss factors that limit the high voltage performance and an investigation of titanium (Ti) electrodes removed from accelerator after operation for few decades. This confirmed contamination of Ti electrodes with unstable films containing traces of oxides, sulphur and fluorine.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 28
EP  - 32
KW  - vacuum
KW  - acceleration
KW  - operation
KW  - high-voltage
KW  - electron
DA  - 2019/11
PY  - 2019
SN  - 978-3-95450-203-5
DO  - doi:10.18429/JACoW-HIAT2018-MOOYA01
UR  - http://jacow.org/hiat2018/papers/mooya01.pdf
ER  -