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The development of a segmented N-type germanium detector, and its application to astronomical gamma-ray spectroscopy (1984)

Teegarden, B. J. ; Ryge, P. ; Gehrels, N. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Extensive calculations and simulations have shown that the instrumental background in a coaxial germanium photon detector flown at balloon altitudes or in space, can be substantially reduced by segmenting the outer contact. The contact is divided into horizontal strips around the side of the detector, giving it many characteristics similar to that of a stack of planar detectors. By choosing different segment coincidence requirements in different energy ranges, one can obtain a factor of approx. 2 increase in sensitivity to spectral lines between 40 keV and 1 MeV, compared with an unsegmented detector. The reverse electrode configuration (using n-type germanium), with the p contact outside, is preferred for this application due to its thin dead layer and resistance to radiation damage in space. A small two segment n type detector is being developed to serve as a prototype for larger multisegment devices. Results of this development effort and of detector tests are presented. Previously announced in STAR as N84-13039

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: IEEE Transactions on Nuclear Science (ISSN 0018-9499); NS-31; 307-311

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2

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Energetic oxygen and sulfur ions in the Jovian magnetosphere and their contribution to the auroral excitation (1983)

Gehrels, N. ; Stone, E. C.

In: Other Sources

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Publication Date: 2019-06-28

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research (ISSN 0148-0227); 88; July 1

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3

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Energetic oxygen and sulfur ions in the Jovian magnetosphere (1981)

Gehrels, N.

In: CASI

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Publication Date: 2019-06-28

Description: Observations of 1 to 20 MeV/nuc oxygen, sodium, and sulfur ions in the Jovian magnetosphere are reported. Measurements made by the cosmic ray subsystem on Voyager 1 and 2 were used to calculate abundances and energy spectra in the region from 5 to 20 Jovian radii. The phase space density of the oxygen ions calculated from the spectra has a positive radial gradient between 6 and 17 Jovian radii, indicating an inward diffusive flow. The diffusion coefficient upper limit at 9 Jovian radii is approximately 10 to the -5 power/s. This limit, combined with the analysis of Voyager plasma observations by Siscoe et al.1981, implies an upper limit to the mass loading rate near Io of approximately 10 to the 28th power ions/s. The energetic oxygen lifetime is within an order of magnitude of the strong pitch-angle diffusion lifetime in this region, with the largest total number of particles lost between 7.5 and 12.5 Jovian radii. It is shown that the losses are not due to geometric absorption by Io, absorption by dust grains, or energy loss in the plasma of the inner magnetosphere, and it is therefore postulated that the primary loss mechanism is pitch-angle scattering into the loss cone.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA-CR-164860 , SRL-81-26

Format: application/pdf

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Overview

4

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A balloon-borne instrument for high-resolution astrophysical spectroscopy in the 20-8000 keV energy range (1983)

Baker, R. ; Gehrels, N. ; Ehrmann, C. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The Low Energy Gamma ray Spectrometer (LEGS) is designed to perform fine energy resolution measurements of astrophysical sources. The instrument is configured for a particular balloon flight with either of two sets of high purity germanium detectors. In one configuration, the instrument uses an array of three coaxial detectors (effective volume equal to or approximately 230 cubic cm) inside an NaI (T1) shield and collimator (field of view equal to or approximately 16 deg FWHM) and operates in the 80 to 8000 keV energy range. In the other configuration, three planar detectors (effective area equal to or approximately square cm) surrounded by a combination of passive Fe and active NaI for shielding and collimation (field of view equal to or approximately 5 deg x 10 deg FWHM) are optimized for the 20 to 200 keV energy range. In a typical one day balloon flight, LEGS sensitivity limit (3 sigma) for narrow line features is less than or approximately .0008 ph/cm/s square (coaxial array: 80 to 2000 keV) and less than or approximately .0003 ph/square cm/s (planar array: 50 to 150 keV).

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA-TM-85011 , NAS 1.15:85011

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Overview

5

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Energetic oxygen and sulfur in the Jovian magnetosphere (1981)

Gehrels, N. ; Stone, E. C. ; Trainor, J. H.

In: Other Sources

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Publication Date: 2019-06-28

Description: Measurements made in the Jovian magnetosphere by the cosmic ray subsystem on Voyager 1 and 2 are reported. Energy spectra of oxygen ions in the energy range 1-20 MeV/nuc between 5 and 20 Jovian radii are presented, and phase space densities are calculated. A steep positive radial gradient in the phase space density of the energetic oxygen ions is observed, indicating an inward diffusive flow. The upper limit on the rate at which oxygen ions with greater than 400 MeV/nuc-G diffuse across 10 Jovian radii is calculated to be 5 x 10 to the 21st ions per second, indicating that about 10 to the -7th of the ions from Io are accelerated to over 400 MeV/nuc-G and diffuse to 10 Jovian radii. Observations also suggest that oxygen and sulfur ions in the Io plasma torus diffuse radially outward, are nonadiabatically accelerated in a region outside 17 Jovian radii, and diffuse inward and outward from the accelerated region.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 86; Oct. 1

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6

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Voyager 2 - Energetic ions and electrons in the Jovian magnetosphere (1979)

Cummings, A. C. ; Mcdonald, F. B. ; Garrard, T. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The passage of Voyager 2 through the Jovian magnetosphere demonstrated that this magnetosphere is highly variable, even as close as 10 Jupiter radii from the planet. The cosmic-ray subsystem measured the flux, elemental composition, and anisotropy of energetic particles. Its high sensitivity was particularly valuable during the long passage through the magnetotail, where particle fluxes were orders of magnitude less than in the inner magnetosphere and approached interplanetary values. The new data confirm earlier observations that the Jovian magnetosphere is a giant accelerator of particles - electrons, protons, and heavy ions, including sulfur. Both spatial and temporal changes are observed in the magnetosphere as compared to prior observations with Pioneer 10 and 11 and Voyager 1. It is suggested that the 10-hr modulation of interplanetary Jovian electrons may be associated with the arrival at the dawn magnetopause of a rarefaction region each planetary rotation.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 206; Nov. 23

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7

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Voyager 1 - Energetic ions and electrons in the Jovian magnetosphere (1979)

Gehrels, N. ; Schardt, A. W. ; Lal, N. ; [et al.]

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Publication Date: 2019-06-27

Description: The observations of the cosmic-ray subsystem have added significantly to our knowledge of Jupiter's magnetosphere. The most surprising result is the existence of energetic sulfur, sodium, and oxygen nuclei with energies above 7 MeV per nucleon which were found inside of Io's orbit. Also, significant fluxes of similarly energetic ions reflecting solar cosmic-ray composition were observed throughout the magnetosphere beyond 11 times the radius of Jupiter. It was also found that energetic protons are enhanced by 30 to 70% in the active hemisphere. Finally, the first observations were made of the magnetospheric tail in the dawn direction out to 160 Jupiter radii.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 204; June 1

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8

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Hard X-ray and low-energy gamma-ray spectrometers (1988)

Orwig, L. E. ; Gehrels, N. ; Forrest, D. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Basic principles of operation and characteristics of scintillation and semi-conductor detectors used for solar hard X-ray and gamma-ray spectrometers are presented. Scintillation materials such as NaI offer high stopping power for incident gamma rays, modest energy resolution, and relatively simple operation. They are, to date, the most often used detector in solar gamma-ray spectroscopy. The scintillator BGO has higher stopping power than NaI, but poorer energy resolution. The primary advantage of semi-conductor materials such as Ge is their high-energy resolution. Monte-Carlo simulations of the response of NaI and Ge detectors to model solar flare inputs show the benefit of high resoluton for studying spectral lines. No semi-conductor material besides Ge is currently available with adequate combined size and purity to make general-use hard X-ray and gamma-ray detectors for solar studies.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: Solar Physics (ISSN 0038-0938); 118; 1-2

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9

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A high energy resolution experiment in the hard X-ray range (1983)

Cline, T. ; Paciesas, W. ; Teegarden, B. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The Low Energy Gamma-Ray Spectrometer (LEGS), a joint project among NASA/GSFC, CEN-SACLAY, and Rice University, is designed to perform fine energy resolution measurements of astrophysical sources. In its low energy configuration (20-800 keV energy range) the instrument uses three planar detectors (effective area of 53 sq cm) surrounded by a combination of passive Fe and active NaI for shielding and collimation (FOW of about 5 x 10 deg FWHM). In a typical one-day balloon flight, LEGS sensitivity limit (3 sigma) for narrow line features is not greater than about 0.0003 ph/sq cm s (at 100 kev).

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: International Cosmic Ray Conference; Aug 22, 1983 - Sep 03, 1983; Bangalore; India

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