Drew M. Ahern scite author profile

Drew M. Ahern

5Publications

15Citation Statements Received

10Citation Statements Given

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Affiliations

Glenn Research Center, University of Illinois Urbana-Champaign

Publications

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Diagnostic for Verifying the Thrust Vector Requirement of the AEPS Hall-Effect Thruster and Comparison to the NEXT-C Thrust Vector Diagnostic

Benavides

Mackey

Ahern

et al. 2018

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Zakany, and all of the engineers and technicians of the Space Environment Test Branch for assisting with the setup of the TVD, for fabrication of various components, and for operation of the vacuum facilities. Available fromTrade names and trademarks are used in this report for identifi cation only. Their usage does not constitute an offi cial endorsement, either expressed or implied, by the National Aeronautics and Space Administration.Level of Review: This material has been technically reviewed by technical management.This report contains preliminary fi ndings, subject to revision as analysis proceeds.

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Wear Test of the 12.5-kW Advanced Electric Propulsion System Engineering Test Unit Hall Thruster

Frieman

Kamhawi

Huang

et al. 2020

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Experimental Studies of the Helicon Injected Inertial Plasma Electrostatic Rocket (HIIPER)

Ahern

Al-Rashdan

Altun

et al. 2017

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Integration Tests of the 4 kW-class High Voltage Hall Accelerator Power Processing Unit with the HiVHAc and the SPT-140 Hall Effect Thrusters

Kamhawi

Pinero²,

Haag³

et al. 2016

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NASA's Science Mission Directorate is sponsoring the development of a 4 kW-class Hall propulsion system for implementation in NASA science and exploration missions. The main components of the system include the High Voltage Hall Accelerator (HiVHAc), an engineering model power processing unit (PPU) developed by Colorado Power Electronics, and a xenon flow control module (XFCM) developed by VACCO Industries. NASA Glenn Research Center is performing integrated tests of the Hall thruster propulsion system. This paper presents results from integrated tests of the PPU and XFCM with the HiVHAc engineering development thruster and a SPT-140 thruster provided by Space System Loral. The results presented in this paper demonstrate thruster discharge initiation along with open-loop and closed-loop control of the discharge current with anode flow for both the HiVHAc and the SPT-140 thrusters.Integrated tests with the SPT-140 thruster indicated that the PPU was able to repeatedly initiate the thruster's discharge, achieve steady state operation, and successfully throttle the thruster between 1.5 and 4.5 kW. The measured SPT-140 performance was identical to levels reported by Space Systems Loral.

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In-situ Diagnostic for Assessing Hall Thruster Wear

Ahern

Frieman

Williams

et al. 2018

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The design of a new diagnostic to measure the net erosion of Hall thruster surfaces is presented. This diagnostic consists of a pair of optical noncontact profilometer pens mounted to a set of motion stages, which can interrogate the surface features of multiple components of interest including the hollow cathode assembly, magnet front pole covers, and discharge channel. By comparing scans of these surfaces to reference features, estimates of the component erosion rates can be acquired throughout long-duration lifetime tests without venting and removing the thruster from the vacuum facility for external profilometry. This work presents a detailed overview of the diagnostic design including the precision positioning system. In addition, preliminary data are shown which verify diagnostic operation and establish a baseline that will be used to track the erosion of the Hall Effect Rocket with Magnetic Shielding (HERMeS) Technology Demonstration Unit 3 (TDU-3) during an ongoing long-duration wear test.

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Drew M. Ahern

Diagnostic for Verifying the Thrust Vector Requirement of the AEPS Hall-Effect Thruster and Comparison to the NEXT-C Thrust Vector Diagnostic

Wear Test of the 12.5-kW Advanced Electric Propulsion System Engineering Test Unit Hall Thruster

Experimental Studies of the Helicon Injected Inertial Plasma Electrostatic Rocket (HIIPER)

Integration Tests of the 4 kW-class High Voltage Hall Accelerator Power Processing Unit with the HiVHAc and the SPT-140 Hall Effect Thrusters

In-situ Diagnostic for Assessing Hall Thruster Wear

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