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The Super-TIGER Instrument to Probe Galactic Cosmic Ray Origins (2011)

Christian, E. R. ; Braun, D. L. ; Murphy, R. P. ; [et al.]

In: CASI

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Publication Date: 2019-07-27

Description: Super-TIGER (Super Trans-Iron Galactic Element Recorder) is under construction for the first of two planned Antarctic long-duration balloon flights in December 2012. This new instrument will measure the abundances of ultra-heavy elements (30Zn and heavier), with individual element resolution, to provide sensitive tests of the emerging model of cosmic-ray origins in OB associations and models of the mechanism for selection of nuclei for acceleration. Super-TIGER builds on the techniques of TIGER, which produced the first well-resolved measurements of elemental abundances of the elements 31Ga, 32Ge, and 34Se. Plastic scintillators together with acrylic and silica-aerogel Cherenkov detectors measure particle charge. Scintillating-fiber hodoscopes track particle trajectories. Super-TIGER has an active area of 5.4 sq m, divided into two independent modules. With reduced material thickness to decrease interactions, its effective geometry factor is approx.6.4 times larger than TIGER, allowing it to measure elements up to 42Mo with high statistical precision, and make exploratory measurements up to 56Ba. Super-TIGER will also accurately determine the energy spectra of the more abundant elements from l0Ne to 28Ni between 0.8 and 10 GeV/nucleon to test the hypothesis that microquasars or other sources could superpose spectral features. We will discuss the implications of Super-TIGER measurements for the study of cosmic-ray origins and will present the measurement technique, design, status, and expected performance, including numbers of events and resolution. Details of the hodoscopes, scintillators, and Cherenkov detectors will be given in other presentations at this conference.

Keywords: Astrophysics

Type: GSFC.ABS.5158.2011 , GSFC.O.5159.2011 , 32nd International Cosmic Ray Conference/Waseda University; 11-18 Aug. 211; Beijing; China

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Neutron Imaging Camera (2008)

Floyd, S. R. ; Guardala, N. ; Skopec, M. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Neutron Imaging Camera (NIC) is based on the Three-dimensional Track Imager (3DTI) technology developed at GSFC for gamma-ray astrophysics applications. The 3-DTI, a large volume time-projection chamber, provides accurate, approximately 0.4 mm resolution, 3-D tracking of charged particles. The incident direction of fast neutrons, En 〉 0.5 MeV, are reconstructed from the momenta and energies of the proton and triton fragments resulting from (sup 3)He(n,p) (sup 3)H interactions in the 3-DTI volume. The performance of the NIC from laboratory and accelerator tests is presented.

Keywords: Instrumentation and Photography

Type: SPIE Defense and Security; Mar 15, 2008 - Mar 20, 2008; Orlando, Fl; United States

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Insights into the Galactic Cosmic-ray Source from the TIGER Experiment (2009)

Streitmatter, R. E. ; Barbier, L. M. ; Mitchell, J. W. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: We report results from 50 days of data accumulated in two Antarctic flights of the Trans-Iron Galactic Element Recorder (TIGER). With a detector system composed of scintillators, Cherenkov detectors, and scintillating optical fibers, TIGER has a geometrical acceptance of 1.7 sq m sr and a charge resolution of 0.23 cu at Iron. TIGER has obtained abundance measurements of some of the rare galactic cosmic rays heavier than iron, including Zn, Ga, Ge, Se, and Sr, as well as the more abundant lighter elements (down to Si). The heavy elements have long been recognized as important probes of the nature of the galactic cosmic-ray source and accelerator. After accounting for fragmentation of cosmic-ray nuclei as they propagate through the Galaxy and the atmosphere above the detector system, the TIGER source abundances are consistent with a source that is a mixture of about 20% ejecta from massive stars and 80% interstellar medium with solar system composition. This result supports a model of cosmic-ray origin in OB associations previously inferred from ACE-CRIS data of more abundant lighter elements. These TIGER data also support a cosmic-ray acceleration model in which elements present in interstellar grains are accelerated preferentially compared with those found in interstellar gas.

Keywords: Astrophysics

Type: 31st International Cosmic Ray Conference/International Union of Pure and Applied Physics (IUPAP); Jul 07, 2009 - Jul 15, 2009; Lodz; Poland

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Observations of the Li, Be, and B Isotopes and Constraints on Cosmic-ray Propagation (2007)

Leske, R. A. ; vonRosenvinge, T. T. ; Strong, A. W. ; [et al.]

In: CASI

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Publication Date: 2019-08-14

Description: The abundance of Li, Be, and B isotopes in galactic cosmic rays (GCR) between E=50-200 MeV/nucleon has been observed by the Cosmic Ray Isotope Spectrometer (CRIS) on NASA's ACE mission since 1997 with high statistical accuracy. Precise observations of Li, Be, B can be used to constrain GCR propagation models. We find that a diffusive reacceleration model with parameters that best match CRIS results (e.g. B/C, Li/C, etc) are also consistent with other GCR observations. A approx. 15-20% overproduction of Li and Be in the model predictions is attributed to uncertainties in the production cross-section data. The latter becomes a significant limitation to the study of rare GCR species that are generated predominantly via spallation.

Keywords: Astrophysics

Type: To appear in Journal of Advances in Space Research

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The Energetic Trans-Iron Nuclei Experiment (ENTICE) (2009)

Denolfo, G. A. ; Israel, M. H. ; Binns, W. R. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: The ENTICE experiment is one of two instruments that comprise the "Orbiting Astrophysical Spectrometer in Space (OASIS)" which is presently undergoing a NASA "Astrophysics Strategic Mission Concept Study". ENTICE is designed to make high precision measurements of the abundances of individual elements from neon through the actinides and, in addition, will search for possible superheavy nuclei in the galactic cosmic rays. The ENTICE instrument utilizes silicon detectors, aerogel and acrylic Cherenkov counters, and a scintillating optical fiber hodoscope to measure the charge and energy of these ultra-heavy nuclei for energies greater than 0.3 GeV/nucleon. It is a large instrument consisting of four modules with a total effective geometrical factor of ~20 m2sr. Measurements made in space for a period of 3 years with ENTICE will enable us to determine if cosmic rays include a component of recently synthesized heavy elements (Pu and Cm), what the age of that component is, and test the model of the OB association origin of galactic cosmic rays. Additionally, it will enable us to study how diffusive shock acceleration of cosmic rays operates differently on interstellar grains and gas.

Keywords: Astrophysics

Type: M09-0351 , 31st International Cosmic Ray Conference (ICRC); Jul 07, 2009 - Jul 15, 2009; Lodz; Poland

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Gamma-Ray Imaging for Explosives Detection (2008)

Son, S. ; Hunter, S. D. ; Guardala, N. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: We describe a gamma-ray imaging camera (GIC) for active interrogation of explosives being developed by NASA/GSFC and NSWCICarderock. The GIC is based on the Three-dimensional Track Imager (3-DTI) technology developed at GSFC for gamma-ray astrophysics. The 3-DTI, a large volume time-projection chamber, provides accurate, approx.0.4 mm resolution, 3-D tracking of charged particles. The incident direction of gamma rays, E, 〉 6 MeV, are reconstructed from the momenta and energies of the electron-positron pair resulting from interactions in the 3-DTI volume. The optimization of the 3-DTI technology for this specific application and the performance of the GIC from laboratory tests is presented.

Keywords: Instrumentation and Photography

Type: SPIE Defense and Security; Mar 16, 2008 - Mar 20, 2008; Orlando, FL; United States

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