John T. Yim scite author profile

John T. Yim

5Publications

158Citation Statements Received

68Citation Statements Given

How they've been cited

265

153

How they cite others

Affiliations

Glenn Research Center, University of Michigan–Ann Arbor, Western Michigan University

Publications

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Modeling of the near field plume of a Hall thruster

Boyd

Yim

2004

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In this study, a detailed numerical model is developed to simulate the xenon plasma near-field plume from a Hall thruster. The model uses a detailed fluid model to describe the electrons and a particle-based kinetic approach is used to model the heavy xenon ions and atoms. The detailed model is applied to compute the near field plume of a small, 200 W Hall thruster. Results from the detailed model are compared with the standard modeling approach that employs the Boltzmann model. The usefulness of the model detailed is assessed through direct comparisons with a number of different measured data sets. The comparisons illustrate that the detailed model accurately predicts a number of features of the measured data not captured by the simpler Boltzmann approach.

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Performance, Facility Pressure Effects, and Stability Characterization Tests of NASA’s 12.5-kW Hall Effect Rocket with Magnetic Shielding Thruster

Kamhawi

Huang²,

Haag³

et al. 2016

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analysis of the discharge current waveforms showed that increasing the vacuum chamber background pressure resulted in a higher discharge current dominant breathing mode frequency. Finally, IVB maps of the TDU-1 thruster indicated that the discharge current became more oscillatory with higher discharge current peak-to-peak and RMS values with increased facility background pressure at lower thruster mass flow rates; thruster operation at higher flow rates resulted in less change to the thruster's IVB characteristics with elevated background pressure.

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Recommended Practice for Pressure Measurement and Calculation of Effective Pumping Speed in Electric Propulsion Testing

Dankanich

Walker

Swiatek

et al. 2017

Journal of Propulsion and Power

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The electric propulsion community has been implored to establish and implement a set of universally applicable test standards during the research, development, and qualification of electric propulsion systems. Variability between facility-to-facility and more importantly ground-to-flight performance can result in large margins in application or aversion to mission infusion. Performance measurements and life testing under appropriate conditions can be costly and lengthy. Measurement practices must be consistent, accurate, and repeatable. Additionally, the measurements must be universally transportable across facilities throughout the development, qualification, spacecraft integration, and on-orbit performance. A recommended practice for making pressure measurements, pressure diagnostics, and calculating effective pumping speeds with justification is presented.

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Predicting Hall Thruster Operational Lifetime

Manzella

Yim

Boyd

2004

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NASA's HERMeS Hall Thruster Electrical Configuration Characterization

Peterson¹,

Kamhawi

Huang

et al. 2016

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John T. Yim

Modeling of the near field plume of a Hall thruster

Performance, Facility Pressure Effects, and Stability Characterization Tests of NASA’s 12.5-kW Hall Effect Rocket with Magnetic Shielding Thruster

Recommended Practice for Pressure Measurement and Calculation of Effective Pumping Speed in Electric Propulsion Testing

Predicting Hall Thruster Operational Lifetime

NASA's HERMeS Hall Thruster Electrical Configuration Characterization

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