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Development of a modular hollow cathode for ground testing of plasma thrusters

Development of a modular hollow cathode for ground testing of plasma thrusters
Development of a modular hollow cathode for ground testing of plasma thrusters
A hollow cathode with a modular design has been developed to assist with laboratory testing of plasma-based thrusters for satellite applications. This novel modular design includes interchangeable components for varying the geometry and tailoring the configuration to specific applications, as well as easing the replacement of individual components in the case of damage. The modular hollow cathode also presents unconventional design features aimed at improving the heating efficiency: the heater is in direct contact with the emitter and the keeper is not in physical contact with the cathode base. The modular hollow cathode development has been based on a combination of theoretical modelling and experimental testing. The influence of the novel mechanical assembly has been investigated by characterising the operational envelope at different propellant mass flow rates for xenon and krypton. The modular hollow cathode has demonstrated stable operation by sustaining discharge currents between 0.5 and 4 A at different conditions. Finally, the cathode has been coupled with a Hall-type plasma thruster operating in the 0.3–2.5 A anode current range. This paper outlines development, experimental validation of this peculiar mechanical cathode configuration, covering plasma and thermal modelling, standalone testing, and coupled Hall-type thruster operation.
0042-207X
Ahmed, Mohamed
e8c68f64-26c7-450f-8233-bbe4157c3359
Karadag, Burak
dae33907-267c-4d8f-af7e-76f9c3c01054
Masillo, Silvia
a2161b37-bda7-41ef-9cb2-15fc76d03214
Fabris, Andrea Lucca
12222eb1-fdb1-46c1-b6e9-905e102e8656
Ahmed, Mohamed
e8c68f64-26c7-450f-8233-bbe4157c3359
Karadag, Burak
dae33907-267c-4d8f-af7e-76f9c3c01054
Masillo, Silvia
a2161b37-bda7-41ef-9cb2-15fc76d03214
Fabris, Andrea Lucca
12222eb1-fdb1-46c1-b6e9-905e102e8656

Ahmed, Mohamed, Karadag, Burak, Masillo, Silvia and Fabris, Andrea Lucca (2023) Development of a modular hollow cathode for ground testing of plasma thrusters. Vacuum, 219 (Part A), [112653]. (doi:10.1016/j.vacuum.2023.112653).

Record type: Article

Abstract

A hollow cathode with a modular design has been developed to assist with laboratory testing of plasma-based thrusters for satellite applications. This novel modular design includes interchangeable components for varying the geometry and tailoring the configuration to specific applications, as well as easing the replacement of individual components in the case of damage. The modular hollow cathode also presents unconventional design features aimed at improving the heating efficiency: the heater is in direct contact with the emitter and the keeper is not in physical contact with the cathode base. The modular hollow cathode development has been based on a combination of theoretical modelling and experimental testing. The influence of the novel mechanical assembly has been investigated by characterising the operational envelope at different propellant mass flow rates for xenon and krypton. The modular hollow cathode has demonstrated stable operation by sustaining discharge currents between 0.5 and 4 A at different conditions. Finally, the cathode has been coupled with a Hall-type plasma thruster operating in the 0.3–2.5 A anode current range. This paper outlines development, experimental validation of this peculiar mechanical cathode configuration, covering plasma and thermal modelling, standalone testing, and coupled Hall-type thruster operation.

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Accepted/In Press date: 24 September 2023
e-pub ahead of print date: 27 September 2023
Published date: 14 October 2023
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Identifiers

Local EPrints ID: 503910
URI: http://eprints.soton.ac.uk/id/eprint/503910
DOI: doi:10.1016/j.vacuum.2023.112653
ISSN: 0042-207X
PURE UUID: 8c77c474-c60a-40be-b566-296fab753fe0
ORCID for Mohamed Ahmed: ORCID iD orcid.org/0009-0005-6635-2791

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Date deposited: 18 Aug 2025 16:38
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Mohamed Ahmed ORCID iD
Author: Burak Karadag
Author: Silvia Masillo
Author: Andrea Lucca Fabris

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