High‐voltage interactions in plasma wakes: Simulation and flight measurements from the Charge Hazards and Wake Studies (CHAWS) experiment

Davis, V. A.; Mandell, M. J.; Cooke, D. L.; Enloe, C. L.

doi:10.1029/1998ja900071

Cited by 25 publications

(6 citation statements)

References 39 publications

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“…The plotted information may be displayed as text on the Text subtab and pasted into a spreadsheet for further processing. To study ion collection by a high voltage object in a spacecraft wake, the CHAWS 16 (Charging Hazards and Wake Studies) experiment was flown about the WSF (Wake Shield Facility) on STS-60 (February 1994) and STS-69 (September 1995). Originally simulated using the DynaPAC code, we use this problem as the primary example of a selfconsistent (between potentials and trajectories) calculation in Nascap-2k.…”

Section: Methodsmentioning

confidence: 99%

Nascap-2k Spacecraft Charging Code Overview

Mandell¹,

Davis²,

Cooke³

et al. 2005

Self Cite

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The public reporting burden for this collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information. Send comments regarding this burden estimate or any other aspect of this collection of information, including suggestions for reducing the burden to Department SPONSORINGMONITORING AGENCY NAME(S) AND ADDRESS(ES) 10. SPONSOR/MONITOR'S ACRONYM(S)AFRLNSBXT SPONSORMONITOR'S REPORT NUMBER(S) DISTRIBUTIONIAVAILABILITY STATEMENTApproved for Public Relase; distribution unlimited. SUPPLEMENTARY NOTES - ABSTRACTNascap-2k is a modem spacecraft charging code, replacing the older codes NASCAP/GEO, NASCAP/LEO, POLAR, and DynaPAC. The code builds on the physical principles, mathematical algorithms, and user experience developed over three decades of spacecraft charging research. Capabilities include surface charging in geosynchronous and interplanetary orbits, sheath and wake structure and current collection in low-Earth orbits, and auroral charging. External potential structure and particle trajectories are computed using a finite element method on a nested grid structure and may be visualized within the Nascap-2k interface. Space charge can be treated either analytically, self-consistently with particle trajectories, or by importing plume densities from an external code such as EPIC (Electric Propulsion Interactions Code). Particle-in-cell capabilities are available to study dynamic plasma effects. Auxiliary programs to Nascap-2k include Object Toolkit (for developing spacecraft surface models) and GridTool (for constructing nested grid structures around spacecraft models). The capabilities of the code are illustrated by way of three examples: charging ofa geostationary satellite, self-consistent potentials for a negative probe in a LEO spacecraft wake, and potentials associated with thruster plumes. SUBJECT TERMS Spacecraft chargingPlasma simulation, Nascap-2k AbstractNascap-2k is a modem spacecraft charging code, replacing the older codes NASCAP/GEO, NASCAP/LEO, POLAR, and DynaPAC. The code builds on the physical principles, mathematical algorithms, and user experience developed over three decades of spacecraft charging research.Capabilities include surface charging in geosynchronous and interplanetary orbits, sheath and wake structure and current collection in low-Earth orbits, and auroral charging. External potential structure and particle trajectories are computed using a finite element method on a nested grid structure and may be visualized within the Nascap-2k interface. Space charge can be treated either analytically, self-consistently with particle trajectories, or by importing plume densities from an external code such as EPIC (Electric Propulsion Interactions Code). Particle-in-cell (PIC) capabilities are available to study dynamic plasma effects.Auxiliary programs to Nascap-2k include Object Toolkit (for developing spacecr...

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Section: Methodsmentioning

confidence: 99%

Nascap-2k Spacecraft Charging Code Overview

Mandell¹,

Davis²,

Cooke³

et al. 2005

Self Cite

View full text Add to dashboard Cite

show abstract

“…PIC codes are commonly employed to simulate plasma wakes for various conditions [8][9][10][11]. In general, plasma wakes have been seen to be generated by various objects in the space plasma environment: from high-velocity dust grains [8,12,13] to spacecraft [14][15][16] and planetary bodies [9,[17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Plasma Density Analysis of CubeSat Wakes in the Earth’s Ionosphere

Albarran

Barjatya

2016

Journal of Spacecraft and Rockets

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“…Computer modeling of flight experiments (such as SCATHA (Spacecraft Charging at High Altitude), [1] the SPEAR (Space Power Experiments Aboard Rockets) [2,3] series, and CHAWS (Charging Hazards and Wake Studies) [4]) has demonstrated excellent ability to predict both steady-state and dynamic interactions between high-voltage spacecraft and the ambient plasma. This ability was also extended to inherently dynamic problems involving threedimensional space charge sheath formation, current flow in the quasi-neutral presheath, breakdown phenomena, plasma kinetics, ionization processes, and the effect of unsteady processes on spacecraft charging.…”

Section: Introductionmentioning

confidence: 99%

Plasma Interactions with Spacecraft. Volume 2, NASCAP-2K Scientific Documentation for Version 4.1

Davis¹,

Mandell²

2011

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High‐voltage interactions in plasma wakes: Simulation and flight measurements from the Charge Hazards and Wake Studies (CHAWS) experiment

Cited by 25 publications

References 39 publications

Nascap-2k Spacecraft Charging Code Overview

Nascap-2k Spacecraft Charging Code Overview

Plasma Density Analysis of CubeSat Wakes in the Earth’s Ionosphere

Plasma Interactions with Spacecraft. Volume 2, NASCAP-2K Scientific Documentation for Version 4.1

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