A. M. Parsons scite author profile

A. M. Parsons

9Publications

44Citation Statements Received

12Citation Statements Given

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Affiliations

Goddard Space Flight Center, Astrophysics Science Division

Publications

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Subsurface In situ elemental composition measurements with PING

Parsons

McClanahan

Bodnarik

et al. 2013

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Abstract-This paper describes the Probing In situ with Neutron and Gamma rays (PING) instrument, that can measure the subsurface elemental composition in situ for any rocky body in the solar system without the need for digging into the surface. PING consists of a Pulsed Neutron Generator (PNG), a gamma ray spectrometer and neutron detectors. Subsurface elements are stimulated by high-energy neutrons to emit gamma rays at characteristic energies. This paper will show how the detection of these gamma rays results in a measurement of elemental composition. Examples of the basalt to granite ratios for aluminum and silicon abundance are provided.

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Time-resolved neutron/gamma-ray data acquisition for in situ subsurface planetary geochemistry

Bodnarik

Bürger

et al. 2013

Nuclear Instruments and Methods in Physics Research Section A:

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The current gamma-ray/neutron instrumentation development effort at NASA Goddard Space Flight Center aims to extend the use of active pulsed neutron interrogation techniques to probe the subsurface elemental composition of planetary bodies in situ. Previous NASA planetary science missions, that used neutron and/or gamma-ray spectroscopy instruments, have relied on neutrons produced from galactic cosmic rays. One of the distinguishing features of this effort is the inclusion of a high intensity 14.1 MeV pulsed neutron generator synchronized with a custom data acquisition system to time each event relative to the pulse. With usually only one opportunity to collect data, it is difficult to set a priori time-gating windows to obtain the best possible results. Acquiring time-tagged, event-byevent data from nuclear induced reactions provides raw data sets containing channel/energy, and event time for each gamma ray or neutron detected. The resulting data set can be plotted as a function of time or energy using optimized analysis windows after the data are acquired. Time windows can now be chosen to produce energy spectra that yield the most statistically significant and accurate elemental composition results that can be derived from the complete data set. The advantages of post-processing gamma-ray time-tagged event-by-event data in experimental tests using our prototype instrument will be demonstrated.

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CdZnTe background measurements at balloon altitudes with PoRTIA

Parsons

Barthelmy

Bartlett

et al. 2004

Nuclear Instruments and Methods in Physics Research Section A:

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Multiyear BATSE Earth Occultation Monitoring of NGC 4151

Parsons¹,

Gehrels²,

Pačiesas³

et al. 1998

ApJ

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Development of the probing in-situ with Neutron and Gamma rays (PING) instrument for planetary science applications

Parsons

Bodnarik

Bürger

et al. 2011

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32. Sub-Kelvin resistance, impact resistance, and neutron dose of the tardigrade: Ramazzottius varieoranatus

et al. 2010

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Neutron induced activity in natural and enriched 70Ge detectors

Naya

Jean

Albernhe

et al. 1997

Nuclear Instruments and Methods in Physics Research Section A:

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Swift Burst Alert Telescope hard X-ray monitor and survey

Krimm¹,

Barthelmy²,

Gehrels³

et al. 2001

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A. M. Parsons

Subsurface In situ elemental composition measurements with PING

Time-resolved neutron/gamma-ray data acquisition for in situ subsurface planetary geochemistry

CdZnTe background measurements at balloon altitudes with PoRTIA

Multiyear BATSE Earth Occultation Monitoring of NGC 4151

Development of the probing in-situ with Neutron and Gamma rays (PING) instrument for planetary science applications

32. Sub-Kelvin resistance, impact resistance, and neutron dose of the tardigrade: Ramazzottius varieoranatus

Neutron induced activity in natural and enriched 70Ge detectors

Swift Burst Alert Telescope hard X-ray monitor and survey

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