Your search keyword '"Israel, M. H"' showing total 101 results

1. Observation of the 60Fe Nucleosynthesis-Clock Isotope in Galactic Cosmic Rays

Author

Binns, W. R, Israel, M. H, Christian, E. R, Cummings, A. C, de Nolfo, G. A, Lave, K. A, Leske, R. A, Mewaldt, R. A, Stone, E. C, and von Rosenvinge, T. T

Subjects

Astrophysics

Abstract

Iron-60 (60Fe) is a radioactive isotope in cosmic rays that serves as a clock to infer an upper limit on the time between nucleosynthesis and acceleration. We have used the ACE-CRIS instrument to collect 3.55 105 iron nuclei, with energies 195 to 500 megaelectron volts per nucleon, of which we identify 15 60Fe nuclei. The 60Fe56Fe source ratio is (7.5 2.9) 105. The detection of supernova-produced 60Fe in cosmic rays implies that the time required for acceleration and transport to Earth does not greatly exceed the 60Fe half-life of 2.6 million years and that the 60Fe source distance does not greatly exceed the distance cosmic rays can diffuse over this time, 1 kiloparsec. A natural place for 60Fe origin is in nearby clusters of massive stars.

Published

2016

2. THE SuperTIGER Instrument: Measurement of Elemental Abundances of Ultra-Heavy Galactic Cosmic Rays

Author

Binns, W. R, Bose, R. G, Braun, D. L, Brandt, T. J, Daniels, W. M, DowKonnt, P. F, Fitzsimmons, S. P, Hahne, D. J, Hams, T, Israel, M. H, Klemic, J, Labrador, A. W, Link, J. T, Mewaldt, R. A, Mitchell, J. W, Moore, P, Murphy, R. P, Olevitch, M. A, Rauch, B. F, Sakai, K, San Sebastian, F, Sasaki, M, Simburger, G. E, Stone, E. C, Waddington, C. J, Ward, J. E, and Wiedenbeck, M. E

Subjects

Astrophysics

Abstract

The SuperTIGER (Super Trans-Iron Galactic Element Recorder) instrument was developed to measure the abundances of galactic cosmic-ray elements from Ne-10 to Zr-40 with individual element resolution and the high statistics needed to test models of cosmic-ray origins. SuperTIGER also makes exploratory measurements of the abundances of elements with 40 < Z < or = 60 and measures the energy spectra of the more abundant elements for Z < or = 30 from about 0.8 to 10 GeV/nucleon. This instrument is an enlarged and higher resolution version of the earlier TIGER instrument. It was designed to provide the largest geometric acceptance possible and to reach as high an altitude as possible, flying on a standard long-duration 1.11 million cu m balloon. SuperTIGER was launched from Williams Field, McMurdo Station, Antarctica, on 2012 December 8, and made about 2.7 revolutions around the South Pole in 55 days of flight, returning data on over 50 x 10(exp 6) cosmic-ray nuclei with Z > or = 10, including approx.1300 with Z > 29 and approx.60 with Z > 49. Here, we describe the instrument, the methods of charge identification employed, the SuperTIGER balloon flight, and the instrument performance.

Published

2014

3. Elemental GCR Observations during the 2009-2010 Solar Minimum Period

Author

Lave, K. A, Israel, M. H, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, deNolfo, G. A, Leske, R. A, Mewaldt, R. A, Stone, E. C, vonRosenvinge, T. T, and Wiedenbeck, M. E

Subjects

Space Radiation

Abstract

Using observations from the Cosmic Ray Isotope Spectrometer (CRIS) onboard the Advanced Composition Explorer (ACE), we present new measurements of the galactic cosmic ray (GCR) elemental composition and energy spectra for the species B through Ni in the energy range approx. 50-550 MeV/nucleon during the record setting 2009-2010 solar minimum period. These data are compared with our observations from the 1997-1998 solar minimum period, when solar modulation in the heliosphere was somewhat higher. For these species, we find that the intensities during the 2009-2010 solar minimum were approx. 20% higher than those in the previous solar minimum, and in fact were the highest GCR intensities recorded during the space age. Relative abundances for these species during the two solar minimum periods differed by small but statistically significant amounts, which are attributed to the combination of spectral shape differences between primary and secondary GCRs in the interstellar medium and differences between the levels of solar modulation in the two solar minima. We also present the secondary-to-primary ratios B/C and (Sc+Ti+V)/Fe for both solar minimum periods, and demonstrate that these ratios are reasonably well fit by a simple "leaky-box" galactic transport model that is combined with a spherically symmetric solar modulation model.

Published

2013

4. Constraints on Galactic Cosmic-Ray Origins from Elemental and Isotopic Composition Measurements

Author

Binns, W. R, Christian, E. R, Cummings, A. C, deNolfo, G. A, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, vonRosevinge, T. T, and Wiedenbeck, M. E

Subjects

Space Radiation

Abstract

The most recent measurements by the Cosmic Ray Isotope Spectrometer (CRIS) aboard the Advanced Composition Explorer (ACE) satellite of ultra-heavy cosmic ray isotopic and elemental abundances will be presented. A range of isotope and element ratios, most importantly Ne-22/Ne-20, Fe-58/Fe-56, and Ga-31/Ge -32 show that the composition is consistent with source material that is a mix of approx 80% ISM (with Solar System abundances) and 20% outflow/ejecta from massive stars. In addition, our data show that the ordering of refractory and volatile elements with atomic mass is greatly improved when compared to an approx 80%/20% mix rather than pure ISM, that the refractory and volatile elements have similar slopes, and that refractory elements are preferentially accelerated by a factor of approx 4. We conclude that these data are consistent with an OB association origin of GCRs.

Published

2013

5. Galactic Cosmic-Ray Energy Spectra and Composition during the 2009-2010 Solar Minimum Period

Author

Lave, K. A, Wiedenbeck, Mark E, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, deNolfo, G. A, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, and VonRosenvinge, T. T

Subjects

Space Radiation

Abstract

We report new measurements of the elemental energy spectra and composition of galactic cosmic rays during the 2009-2010 solar minimum period using observations from the Cosmic Ray Isotope Spectrometer (CRIS) onboard the Advanced Composition Explorer. This period of time exhibited record-setting cosmic-ray intensities and very low levels of solar activity. Results are given for particles with nuclear charge 5 <= Z <= 28 in the energy range approx. 50-550 MeV / nucleon. Several recent improvements have been made to the earlier CRIS data analysis, and therefore updates of our previous observations for the 1997-1998 solar minimum and 2001-2003 solar maximum are also given here. For most species, the reported intensities changed by less than approx. 7%, and the relative abundances changed by less than approx. 4%. Compared with the 1997-1998 solar minimum relative abundances, the 2009-2010 abundances differ by less than 2sigma, with a trend of fewer secondary species observed in the more recent time period. The new 2009-2010 data are also compared with results of a simple "leaky-box" galactic transport model combined with a spherically symmetric solar modulation model. We demonstrate that this model is able to give reasonable fits to the energy spectra and the secondary-to-primary ratios B/C and (Sc+Ti+V)/Fe. These results are also shown to be comparable to a GALPROP numerical model that includes the effects of diffusive reacceleration in the interstellar medium.

Published

2013

6. Design and Tests of the Hard X-Ray Polarimeter X-Calibur

Author

Beilicke, M, Baring, M. G, Barthelmy, S, Binns, W. R, Buckley, J, Cowsik, R, Dowkontt, P, Garson, A, Guo, Q, Haba, Y, Israel, M. H, Kunieda, H, Lee, K, Matsumoto, H, Miyazawa, T, Okajima, T, Schnittman, J, Tamura, K, Tueller, J, and Krawczynski, H

Subjects

Astrophysics

Abstract

X-ray polarimetry promises to give qualitatively new information about high-energy astrophysical sources, such as binary black hole systems, micro-quasars, active galactic nuclei, and gamma-ray bursts. We designed, built and tested a hard X-ray polarimeter X-Calibur to be used in the focal plane of the InFOC(mu)S grazing incidence hard X-ray telescope. X-Calibur combines a low-Z Compton scatterer with a CZT detector assembly to measure the polarization of 10 - 80 keY X-rays making use of the fact that polarized photons Compton scatter preferentially perpendicular to the electric field orientation. X-Calibur achieves a high detection efficiency of order unity.

Published

2012

7. Design and Tests of the Hard X-Ray Polarimeter X-Calibur

Author

Beilicke, M, Binns, W. R, Buckley, J, Cowsik, R, Dowkontt, P, Garson, A, Guo, Q, Israel, M. H, Lee, K, Krawczynski, H, Baring, M. G, Barthelmy, S, Okajima, T, Schnittman, J, Tueller, J, Haba, Y, Kunieda, H, Matsumoto, H, Miyazawa, T, and Tamura, K

Subjects

Astrophysics

Abstract

X-ray polarimetry promises to give new information about high-energy astrophysical sources, such as binary black hole systems, micro-quasars, active galactic nuclei, and gamma-ray bursts. We designed, built and tested a hard X-ray polarimeter X-Calibur to be used in the focal plane of the InFOC(mu)S grazing incidence hard X-ray telescope. X-Calibur combines a low-Z Compton scatterer with a CZT detector assembly to measure the polarization of 10-80 keV X-rays making use of the fact that polarized photons Compton scatter preferentially perpendicular to the electric field orientation. X-Calibur achieves a high detection efficiency of order unity.

Published

2011

8. The Super-TIGER Instrument to Probe Galactic Cosmic Ray Origins

Author

Mitchell, John W, Binns, W. R, Bose, R, G, Braun, D. L, Christian, E. R, Daniels, W. M, DeNolfo, G. A, Dowkontt, P. F, Hahne, D. J, Hams, T, Israel, M. H, Klemic, J, Labrador, A. W, Link, J. T, Mewaldt, R. A, Moore, P. R, Murphy, R. P, Olevitch, M. A, Rauch, B. F, SanSebastian, F, Sasaki, M, Simburger, G. E, Stone, E. C, and Waddington, C. J

Subjects

Astrophysics

Abstract

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.

Published

2011

9. Insights into the Galactic Cosmic-ray Source from the TIGER Experiment

Author

Link, Jason T, Barbier, L. M, Binns, W. R, Christian, E. R, Cummings, J. R, Geier, S, Israel, M. H, Lodders, K, Mewaldt,R. A, Mitchell, J. W, deNolfo, G. A, Rauch, B. F, Schindler, S. M, Scott, L. M, Streitmatter, R. E, Stone, E. C, Waddington, C. J, and Wiedenbeck, M. E

Subjects

Astrophysics

Abstract

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.

Published

2009

10. The Energetic Trans-Iron Cosmic-ray Experiment (ENTICE)

Author

Binns, W. R, Adams. J. H, Barghouty, A. F, Christian, E. R, Cummings, A. C, Hams, T, Israel, M. H, Labrador, A. W, Leske, R. A, Link, J. T, Mewwaldt, R. A, Mitchell, J. W, De Nolfo, G. A, Sasaki, M, Stone, E. C, Waddington, C. J, and Wiedenbeck, M. E

Subjects

Astrophysics

Abstract

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 0.5 GeV/nucleon. It is a large instrument consisting of four modules with a total effective geometrical factor of approx.20 sq m sr. Measurements made in space for a period of three years with ENTICE will enable us to determine if cosmic rays include a component of recently synthesized transuranic elements (Pu-94 and Cm-96), to measure the age of that component, and to test the model of the OB association origin of galactic cosmic rays. Additionally, these observations will enable us to study how diffusive shock acceleration of cosmic rays operates differently on interstellar grains and gas. Keywords: cosmic rays Galaxy:abundances

Published

2009

11. The Energetic Trans-Iron Nuclei Experiment (ENTICE)

Author

Binns, W. R, Israel, M. H, Cummings, A. C, Labrador, A. W, Mewaldt, R. A, Leske, R. A, Stone, E. C, Wiedenbeck, M. E, Christian, E. R, Denolfo, G. A, Hams, T, Link, J. T, Mitchell, J. W, Sasaki, M, Adams, J. H, and Waddington, C. J

Subjects

Astrophysics

Abstract

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.

Published

2009

12. Identifying Galactic Cosmic Ray Origins With Super-TIGER

Author

deNolfo, Georgia, Binns, W. R, Israel, M. H, Christian, E. R, Mitchell, J. W, Hams, T, Link, J. T, Sasaki, M, Labrador, A. W, Mewaldt, R. A, Stone, E. C, Waddington, C. J, and Wiedenbeck, M. E

Subjects

Astrophysics

Abstract

Super-TIGER (Super Trans-Iron Galactic Element Recorder) is a new long-duration balloon-borne instrument designed to test and clarify an emerging model of cosmic-ray origins and models for atomic processes by which nuclei are selected for acceleration. A sensitive test of the origin of cosmic rays is the measurement of ultra heavy elemental abundances (Z > or equal 30). Super-TIGER is a large-area (5 sq m) instrument designed to measure the elements in the interval 30 < or equal Z < or equal 42 with individual-element resolution and high statistical precision, and make exploratory measurements through Z = 60. It will also measure with high statistical accuracy the energy spectra of the more abundant elements in the interval 14 < or equal Z < or equal 30 at energies 0.8 < or equal E < or equal 10 GeV/nucleon. These spectra will give a sensitive test of the hypothesis that microquasars or other sources could superpose spectral features on the otherwise smooth energy spectra previously measured with less statistical accuracy. Super-TIGER builds on the heritage of the smaller TIGER, which produced the first well-resolved measurements of elemental abundances of the elements Ga-31, Ge-32, and Se-34. We present the Super-TIGER design, schedule, and progress to date, and discuss the relevance of UH measurements to cosmic-ray origins.

Published

2009

13. The Electron Calorimeter (ECAL) Long Duration Balloon Experiment

Author

Guzik, T. G, Adams, J. H, Bashindzhagyan, G, Binns, W. R, Chang, J, Cherry, M. L, Christl, M, Dowkontt, P, Ellison, B, Isbert, J. B, Israel, M. H, Korotkova, N, Panasyuk, M, Panov, A, Sokolskaya, N, Stewart, M, Watts, J, Wefel, P, and Zatsepin, V

Subjects

Instrumentation And Photography

Abstract

Accurate measurements of the cosmic ray electron energy spectrum in the energy region 50 GeV to greater than 1 TeV may reveal structure caused by the annihilation of exotic dark matter particles and/or individual cosmic ray sources. Here we describe a new long duration balloon (LDB) experiment, ECAL, optimized to directly measure cosmic ray electrons up to several TeV. ECAL includes a double layer silicon matrix, a scintillating optical fiber track imager, a neutron detector and a fully active calorimeter to identify more than 90% of the incident electrons with an energy resolution of about 1.7% while misidentifying only 1 in 200,000 protons and 0.8% of secondary gamma rays as electrons. Two ECAL flights in Antarctica are planned for a total exposure of 50 days with the first flight anticipate for December 2009.

Published

2007

14. A Neutron Detector for the Electron Calorimeter (ECAL) Long Duration Balloon Experiment

Author

Adams, J. H., Jr, Bashindzhagyan, G. L, Binns, W. R, Chang, J, Cherry, M. L, Christl, M. J, Guzik, t. G, Isbert, J, Israel, M. H, Korotkova, N, Panasyuk, M. I, Panov, A, Sokolskaya, N. V, Watts, J. W, Wefel, J. P, and Zatsepin, V

Subjects

Astrophysics

Abstract

The highest energy measurements of cosmic ray electrons extend just beyond 1 TeV. High energy electrons are of particular interest because energy losses during interstellar propagation insure that they arrive primarily from nearby sources. This may produce observable structure in their spectrum. Further, it is predicted that electrons and positrons result from the annihilation of many exotic particles deposited as dark matter candidates. These electrons may appear as excesses in the cosmic ray electron spectrum from 200 GeV to 1000 GeV. A new long duration balloon experiment, ECAL, is being planned to provide direct cosmic ray electron measurements from approx.50 GeV to >1 TeV. To make these measurements ECAL must discriminate strongly against showers from protons and heavier ions. One of the techniques used to make this discrimination may be based on measuring the secondary neutrons produced by events in the instrument. The neutron detector configuration and technique will be discussed along with its expected performance based on Monte Carlo simulations.

Published

2007

15. Cosmic Ray Helium Intensities over the Solar Cycle from ACE

Author

DeNolfo, G. A, Yanasak, N. E, Binns, W. R, Cohen, C. M. S, Cummings, A. C, Davis, A. J, George, J. S, Hink. P. L, Israel, M. H, Lave, K, Leske, R. A, Mewaldt, R. A, Moskalenko, I. V, Ogliore, R, Stone, E. C, Von Rosenvinge, T. T, and Wiedenback, M. E

Subjects

Astronomy

Abstract

Observations of cosmic-ray helium energy spectra provide important constraints on cosmic ray origin and propagation. However, helium intensities measured at Earth are affected by solar modulation, especially below several GeV/nucleon. Observations of helium intensities over a solar cycle are important for understanding how solar modulation affects galactic cosmic ray intensities and for separating the contributions of anomalous and galactic cosmic rays. The Cosmic Ray Isotope Spectrometer (CRIS) on ACE has been measuring cosmic ray isotopes, including helium, since 1997 with high statistical precision. We present helium elemental intensities between approx. 10 to approx. 100 MeV/nucleon from the Solar Isotope Spectrometer (SIS) and CRIS observations over a solar cycle and compare these results with the observations from other satellite and balloon-borne instruments, and with GCR transport and solar modulation models.

Published

2007

16. Observations of the Li, Be, and B Isotopes and Constraints on Cosmic-ray Propagation

Author

deNolfo, G. A, Moskalenko, I. V, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, George, J. S, Hink, P. L, Israel, M. H, Leske, R. A, Lijowski, M, Mewaldt, R. A, Stone, E. C, Strong, A. W, vonRosenvinge, T. T, Wiedenbeck, M. E, and Yanasak, N. E

Subjects

Astrophysics

Abstract

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.

Published

2007

17. Element Abundances in the Galactic Cosmic Rays with Atomic Number (Z) in the Interval 30 is less than or equal to Z is less than or equal to 40

Author

Barbier, Louis, Binns, W. R, Christian, E, deNolfo, G, Geier, S, Israel, M. H, Link, J. T, Mewaldt, R. A, Mitchell, J, and Rauch, B. F

Subjects

Astronomy

Abstract

We present new results on the elemental abundances of galactic cosmic rays with atomic number, Z, greater than 30, and comparison of these observations with abundances expected from galactic propagation of various suggested models of the cosmic-ray source. We combine preliminary results from the 2003-04 flight of the Trans-Iron Galactic Element Recorder (TIGER) cosmic-ray detector with previously reported results from the 2001-02 flight. This instrument flew over Antarctica for nearly 32 days at a mean atmospheric depth of 5.2 mb in December 2001 - January 2002. At the time of submission of this abstract, January 8, 2004, TIGER was again in the air over Antarctica having completed 22 days of an expected 30day flight at a mean atmospheric depth of about 4 nb, Data from the first flight demonstrated excellent resolution of individual elements, and we expect similar resolution from the second flight.

Published

2004

18. Refractory nuclides in the cosmic-ray source

Author

Wiedenbeck, M. E, Binns, W. R, Cummings, A. C, Davis, A. J, Nolfo, G. de, George, J. S, Israel, M. H, Labrador, A. W, Leske, R. A, Mewaldt, R. A, Stone, E. C, and Rosenvinge, T. T. von

Abstract

New observations of the abundances and energy spectra of the isotopes of Mg, Al, and Si from ACE/CRIS are used to extend our previous results on the composition of refractory nuclides in cosmic-ray source material.

Published

2003

19. Refractory nuclides in the cosmic-ray source

Author

Wiedenbeck, M. E, Binns, W. R, Cummings, A. C, Davis, A. J, Nolfo, G. de, George, J. S, Israel, M. H, Labrador, A. W, Leske, R. A, Mewaldt, R. A, Stone, E. C, and Rosenvinge, T. T. von

Published

2003

20. New Measurements of the Li, Be, and B Isotopes as a Test of Cosmic Ray Transport Models

Author

deNolfo, Georgia A, Yanasak, N. E, Binns, W. R, Cummings, A. C, Davis, A. J, George, J. S, Hink, P. L, Israel, M. H, Leske, R. A, and Mewaldt, R. A

Subjects

Astronomy

Abstract

Precise measurements of predominantly secondary cosmic-ray Li, Be, and B together with current well-measured production cross-sections for these isotopes help to improve our understanding of galactic cosmic ray propagation models. The Cosmic Ray Isotope Spectrometer (CRIS) on ACE has been measuring isotopic composition of cosmic rays since 1997 with high statistical precision. We present the isotopic abundances from CRIS and discuss these observations in the context of cosmic-ray transport models and previous cosmic-ray measurements.

Published

2003

21. The isotopic composition of cosmic-ray calcium

Author

Wiedenbeck, M. E, George, J. S, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, and Rosenvinge, T. T. von

Abstract

We find that the relative abundance of cosmic ray calcium isotopes in the cosmic-ray source are very similar to those found in solar-system material, in spite of the fact that different types of stars are thought to be responsible for producing these two isotopes. This observation is consistent with the view that cosmic rays are derived from a mixed sample of interstellar matter.

Published

2001

22. The isotopic composition of cosmic-ray calcium

Author

Wiedenbeck, M. E, George, J. S, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, Rosenvinge, T. T. von, and Yanasak, N. E

Published

2001

23. Constraints on the nucleosynthesis of refractory nuclides in galactic cosmic rays

Author

Wiedenbeck, M. E, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, George, J. S, Hink, P. L, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, and Rosenvinge, T. T. von

Abstract

We suggest that cosmic rays probably represent a sample of contemporary interstellar matter, at least for refractory species.

Published

2001

24. Constraints on the nucleosynthesis of refractory nuclides in galactic cosmic rays

Author

Wiedenbeck, M. E, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, George, J. S, Hink, P. L, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, Rosenvinge, T. T. von, and Yanasak, N. E

Published

2001

25. Constraints on the nucleosynthesis of refractory nuclides in galactic cosmic rays

Author

Wiedenbeck, M. E, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, George, J. S, Hink, P. L, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, and Rosenvinge, T. T. von

Published

2001

26. Constraints on the nucleosynthesis of refractory nuclides in galactic cosmic rays

Author

Wiedenbeck, M. E, Binns, W. R, Christian, E. R, Cummings, A. C, Davis, A. J, George, J. S, Hink, P. L, Israel, M. H, Leske, R. A, Mewaldt, R. A, Stone, E. C, Rosenvinge, T. T. von, and Yanasak, N

Published

2001

27. The Energetic Trans-Iron Composition Experiment (ENTICE) on the Heavy Nuclei Explorer (HNX)

Author

Israel, M. H, Adams, J. H, Barbier, L. M, Binns, W. R, Christian, E. R, Cummings, A. C, Cummings, J. R, Doke, T, Hasebe, N, Hayashi, T, and Whitaker, Ann F

Subjects

Space Radiation

Abstract

The ENTICE experiment is one of two instruments which make up the HNX mission. The experimental goal of ENTICE is to measure with high precision the elemental abundances of all nuclei with 10<=Z<=82. This will enable us to distinguish between possible injection mechanisms for the galactic cosmic ray accelerator such-as those dependent upon volatility or first ionization potential, and to study the mix of nucleosynthetic processes that contribute to the galactic cosmic ray source. The ENTICE experiment utilizes the dE/dx-C method of charge determination and consists of silicon dE/dx detectors, Cherenkov detectors with two different refractive indices, and a scintillating fiber hodoscope. The geometrical factor of the instrument is 8m2.sr. We will present a description of the instrument and its expected performance based on beam tests and a balloon flight of a prototype instrument.

Published

2001

28. The Energetic Trans-Iron Composition Experiment (ENTICE) on the Heavy Nuclei Explorer (HNX) Mission

Author

Israel, M. H, Adams, James H., Jr, Barbier, L. M, Binns, W. R, Christian, E. R, Craig, N, Cummings, A. C, Doke, T, Hasebe, N, and Whitaker, Ann F

Subjects

Space Radiation

Abstract

The ENTICE experiment is one of two instruments that make up the HNX mission. The experimental goal of ENTICE is to measure with high precision the elemental abundances of all nuclei with Z between 10 and 82. This will enable us to determine if the injection mechanism for the cosmic ray accelerator is controlled by FIP or Volatility and to study the mix of nucleosynthetic processes that contribute to the galactic cosmic ray source. The ENTICE experiment utilizes the dE/dx-C method of charge determination and consists of silicon dE/dx detectors, Cherenkov detectors with two different refractive indices, and a fiber hodoscope. We will describe the instrument and its performance based on beam tests of a prototype instrument.

Published

2001

29. An Imaging Calorimeter for Access-Concept Study

Author

Parnell, T. A, Adams, James H, Binns, R. W, Christl, M. J, Derrickson, J. H, Fountain, W. F, Howell, L. W, Gregory, J. C, Hink, P. L, Israel, M. H, and Whitaker, Ann F

Subjects

Instrumentation And Photography

Abstract

A mission concept study to define the "Advanced Cosmic-ray Composition Experiment for Space Station (ACCESS)" was sponsored by the National Aeronautics and Space Administration (NASA). The ACCESS instrument complement contains a transition radiation detector and an ionization calorimeter to measure tile spectrum of protons, helium, and heavier nuclei up to approximately 10(exp 15) eV to search for the limit of S/N shock wave acceleration, or evidence for other explanations of the spectra. Several calorimeter configurations have been studied, including the "baseline" totally active bismuth germanate instrument and sampling calorimeters utilizing various detectors. The Imaging Calorimeter for ACCESS (ICA) concept comprises a carbon target and a calorimeter using a high atomic number absorber sampled approximately each radiation length (rl) by thin scintillating fiber (SCIFI) detectors. The main features and options of the ICA instrument configuration are described in this paper. Since direct calibration is not possible over most of the energy range, the best approach must be decided from simulations of calorimeter performance extrapolated from CERN calibrations at 0.375 TeV. This paper presents results from the ICA simulations study.

Published

2001

30. Accelerator Test of an Imaging Calorimeter

Author

Christl, Mark J, Adams, James H., Jr, Binns, R. W, Derrickson, J. H, Fountain, W. F, Howell, L. W, Gregory, J. C, Hink, P. L, Israel, M. H, Kippen, R. M, and Whitaker, Ann F

Subjects

Instrumentation And Photography

Abstract

The Imaging Calorimeter for ACCESS (ICA) utilizes a thin sampling calorimeter concept for direct measurements of high-energy cosmic rays. The ICA design uses arrays of small scintillating fibers to measure the energy and trajectory of the produced cascades. A test instrument has been developed to study the performance of this concept at accelerator energies and for comparison with simulations. Two test exposures have been completed using a CERN test beam. Some results from the accelerator tests are presented.

Published

2001

31. Large Isotope Spectrometer for Astromag

Author

Binns, W. R, Klarmann, J, Israel, M. H, Garrard, T. L, Mewaldt, R. A, Stone, E. C, Ormes, J. F, Streitmatter, R. E, Rasmussen, I. L, and Wiedenbeck, M. E

Subjects

Space Radiation

Abstract

The Large Isotope Spectrometer for Astromag (LISA) is an experiment designed to measure the isotopic composition and energy spectra of cosmic rays for elements extending from beryllium through zinc. The overall objectives of this investigation are to study the origin and evolution of galactic matter; the acceleration, transport, and time scales of cosmic rays in the galaxy; and search for heavy antinuclei in the cosmic radiation. To achieve these objectives, the LISA experiment will make the first identifications of individual heavy cosmic ray isotopes in the energy range from about 2.5 to 4 GeV/n where relativistic time dilation effects enhance the abundances of radioactive clocks and where the effects of solar modulation and cross-section variations are minimized. It will extend high resolution measurements of individual element abundances and their energy spectra to energies of nearly 1 TeV/n, and has the potential for discovering heavy anti-nuclei which could not have been formed except in extragalactic sources.

Published

1990

32. Abundances of ultraheavy elements in the cosmic radiation - Results from HEAO 3

Author

Binns, W. R, Israel, M. H, Garrard, T. L, Gibner, P. S, and Kertzman, M. P

Subjects

Space Radiation

Abstract

An analysis is presented that, for the first time, systematically normalizes the data from the HEAO 3 heavy nuclei experiment on the cosmic-ray abundances of all the elements heavier than germanium to that of iron. In the range of atomic number Z from 33 to 60, the analysis yields abundances of odd-even element pairs. The abundances are consistent with a cosmic-ray source having a composition similar to that of the solar system, but subject to source fractionation correlated with the first ionization potential (FIP) of each element. For Z greater than 60, the analysis yields abundances of element groups. For these heaviest nuclei, we find an enhancement of the abundance of the platinum group, elements with Z of 74-80, relative to that in propagated solar system source, and a corresponding increase in the abundance of the largely secondary elements in the 62-73 range. These abundances suggest that there is an enhancement of the r-process contribution to the source nuclei in the Z greater than 60 charge region. Over the entire region of charge, standard leaky box models of propagation satisfactorily model secondary production.

Published

1989

33. The abundances of the heavier elements in the cosmic radiation

Author

Binns, W. R, Israel, M. H, Klarmann, J, Garrard, T. L, and Stone, E. C

Subjects

Space Radiation

Abstract

Current work on the abundances of the ultraheavy elements in the cosmic radiation, i.e., those with Z greater than 30 is reviewed. Those abundances are compared with predictions based on propagation and fractionation of elemental abundances from various assumed sources of the cosmic rays. Striking similarities are found between the solar system and the cosmic ray source abundances for those elements with Z values between 32 and 60. For elements with Z greater than 60, there appears to be a substantial enhancement in the abundances of elements synthesized in the r-process.

Published

1989

34. Cosmic-ray energy spectra between 10 and several hundred GeV per atomic mass unit for elements from Ar-18 to Ni-28 - Results from HEAO 3

Author

Binns, W. R, Israel, M. H, Jones, Michael D, Kamionkowski, M. P, and Garrard, T. L

Subjects

Space Radiation

Abstract

Results from the Heavy Nuclei experiment on HEAO 3 are used to determine the primary abundances of Ni and Fe. Ni and Fe are found to have nearly constant relative abundances over the interval of 10 to about 500 GeV per amu. Individual secondary elements derived principally from interactions of primary Fe nuclei are shown to display a power-law decrease in relative abundance up to about 150 GeV per amu. Ar/Fe and Ca/Fe ratios of 2.6 + or - 0.7 percent and 8.8 + or - 0.7 percent, respectively, are found, confirming a fractionation of source abundances in which elements with high values of the first ionization potential are depleted relative to those with low first ionization potential.

Published

1988

35. Systematics of the release of residual nuclei from relativistic nucleus-nucleus interactions

Author

Binns, W. R, Israel, M. H, Klarmann, J, Garrard, T. L, and Kertzmann, M. P

Subjects

Nuclear And High-Energy Physics

Abstract

Relativistic nuclei of krypton, xenon, holmium, and gold, accelerated in a partially stripped state to a maximum rigidity of about 5.6 GeV, interacting with targets of aluminum, carbon, and polyethylene are examined. For each projectile and target combination, determinations are made for the total and partial charge changing cross sections for the production of lighter fragments. From these measurements, a new representation of the dependence of the total charge changing cross sections on beam and target charge is developed. Simple representations of the variation of the partial cross sections were identified with the charge of the produced fragments and shown to be dependent on the charge and energy of the beam. The fission of gold nuclei at high energies in these various targets has also been studied.

Published

1987

36. Measurements of ultraheavy cosmic rays with HEAO-3

Author

Binns, W. R, Israel, M. H, Klarmann, J, Garrard, T. L, Stone, E. C, and Waddington, C. J

Subjects

Space Radiation

Abstract

The HEAO-3 Heavy Nuclei Experiment has measured abundances of elements from Ar-18 to U-92 in the cosmic rays. The results on the ultraheavy elements, those with atomic numbers greater than 30, indicate that the source of the cosmic rays contain a mixture of r-process and s-process material similar to that found in the solar system. This result is at variance with previous indications that the sources are greatly enhanced with freshly synthesized r-process material. Apparent discrepancies between the results and the accepted solar-system abundance have led to a reexamination of data on photospheric abundances of Ge and Pb, resulting in suggested reductions in their values.

Published

1987

37. A particle astrophysics magnet spectrometer facility for Space Station

Author

Ormes, J. F, Israel, M. H, Mewaldt, R, and Wiedenbeck, M

Subjects

Spacecraft Instrumentation

Abstract

Planning for and design tradeoff studies related to the particle astrophysics magnet spectrometer known as Astromag are presented. This facility is being planned for the Space Station Freedom and address questions regarding the origin and acceleration of cosmic rays, explore the synthesis of elements by making detailed measurements of cosmic ray isotopic composition, and search for evidence of antimatter and other cosmologically significant particles. This work was supported by an international study team which includes particle physicists and cosmic ray physicists.

Published

1987

38. ASTROMAG: A superconducting particle astrophysics magnet facility for the space station

Author

Green, M. A, Smoot, G. F, Golden, R. L, Israel, M. H, Kephart, R, Niemann, R, Mewalt, R. A, Ormes, J. F, Spillantini, P, and Widenbeck, M. E

Subjects

Spacecraft Instrumentation

Abstract

This paper describes a superconducting magnet system which is the heart of a particle astrophysics facility to be mounted on a portion of the proposed NASA space station. This facility will complete the studies done by the electromagnetic observatories now under development and construction by NASA. The paper outlines the selection process of the type of magnet to be used to analyze the energy and momentum of charged particles from deep space. The ASTROMAG superconducting magnet must meet all the criteria for a shuttle launch and landing, and it must meet safety standards for use in or near a manned environment such as the space station. The magnet facility must have a particle gathering aperture of at least 1 square meter steradian and the facility should be capable of resolving heavy nuclei with a total energy of 10 Tev or more.

Published

1986

39. Lead, platinum and other heavy elements in the primary cosmic radiation: HEAO-3 results

Author

Waddington, C. J, Binns, W. R, Brewster, N. R, Fixsen, D. J, Garrard, T. L, Israel, M. H, Klarmann, J, Newport, B. J, and Stone, E. C

Subjects

Space Radiation

Abstract

An observation of the abundances of cosmic-ray lead and platinum-group nuclei using data from the HEAO-3 Heavy Nuclei Experiment (HNE) which consisted of ion chambers mounted on both sides of a plastic Cherenkov counter (Binns et al., 1981) is reported. Further analysis with more stringent selections, inclusion of additional data, and a calibration at the LBL Bevalac, have allowed the determination of the abundance ratio of lead and the platinum group of elements for particles that had a cutoff rigidity R(c) 5 GV. The observed ratio for Pb/Pt is distinctly lower than that predicted by any of the standard models for cosmic ray sources. It is possible that the difference is not an indication that the cosmic ray source composition is greatly different from that of the solar system, but rather that there is less Pb in the solar system and in the r-process than is assumed in the standard models.

Published

1986

40. Abundances in cosmic rays

Author

Israel, M. H

Subjects

Space Radiation

Abstract

Elemental, isotopic, and antiproton abundances in cosmic ray sources are examined. The elemental abundances for very rare elements with atomic numbers (Z) greater than 30, for individual elements with Z less than 33, and for even-Z elements with Z less than 60 are compared with elemental abundances in the solar system. The effects of nucleosynthesis of the material and the cosmic ray acceleration process on the abundances of elements is discussed. It is observed that the cosmic ray sources differ in composition from the solar system; however, the abundances are generally the same. The observations of the cosmic ray antiprotons are described.

Published

1986

41. Measurements of ultraheavy cosmic rays with HEAO-3

Author

Binns, W. R, Israel, M. H, Klarmann, J, Garrard, T. L, Stone, E. C, and Waddington, C. J

Subjects

Space Radiation

Published

1986

42. Lead, platinum, and other heavy elements in the primary cosmic radiation - HEAO 3 results

Author

Binns, W. R, Israel, M. H, Brewster, N. R, Fixsen, D. J, and Garrard, T. L

Subjects

Astrophysics

Abstract

An observation of the abundances of cosmic-ray lead-group and platinum-group nuclei is reported, using data from the HEAO 3 Heavy Nuclei Experiment. From an analysis of 580 days of exposure, 322 nuclei were selected with reasonable charge resolution, E at least 1.3 GeV/nucleon and Z at least 50. The data show a defined abundance peak in the 'platinum' region (Z from 74 to 80), a small abundance of 'lead' (Z from 81 to 83), and a significant number of 'secondary' nuclei in the range of Z between 62 and 73. Possible explanations are offered for the deduced ratio in space of 0.25 plus or minus 0.09 for 'Pb/Pt' being distinctly lower than that predicted by any of the standard models for cosmic-ray sources and propagation effects.

Published

1985

43. Energy spectra of elements with 18 or = Z or = 28 between 10 and 300 GeV/amu

Author

Jones, M. D, Klarmann, J, Stone, E. C, Waddington, C. J, Binns, W. R, Garrard, T. L, and Israel, M. H

Subjects

Space Radiation

Abstract

The HEAO-3 Heavy Nuclei Experiment is composed of ionization chambers above and below a plastic Cerenkov counter. The energy dependence of the abundances of elements with atomic number, Z, between 18 and 28 at very high energies where they are rare and thus need the large area x time are measured. The measurements of the Danish-French HEAO-3 experiment (Englemann, et al., 1983) are extended to higher energies, using the relativistic rise of ionization signal as a measure of energy. Source abundances for Ar and Ca were determined.

Published

1985

44. Elemental abundances of cosmic rays with Z 33 as measured on HEAO-3

Author

Newport, B. J, Stone, E. C, Waddington, C. J, Binns, W. R, Garrard, T. L, Israel, M. H, and Klarmann, J

Subjects

Space Radiation

Abstract

The Heavy Nuclei Experiment on (HEAO-3) high energy astronomy observatory 3 uses a combination of ion chambers and a Cerenkov counter. During analysis, each particle is assigned two parameters, Z sub c and Z sub i, proportional to the square roots of the Cerenkov and mean ionization signals respectively. Because the ionization signal is double valued, a unique assignment of particle charge, Z, is not possible in general. Previous work was limited to particles of either high rigidity or low energy, for which a unique charge assignment was possible, although those subsets contain less than 50% of the total number of particles observed. The maximum likelihood technique was used to determine abundances for the complete data set from approx. 1.5 to approx. 80 GeV/amu.

Published

1985

45. The response of ionization chambers to relativistic heavy nuclei

Author

Newport, B. J, Stone, E. C, Waddington, C. J, Binns, W. R, Fixsen, D. J, Garrard, T. L, Grimm, G, Israel, M. H, and Klarmann, J

Subjects

Space Radiation

Abstract

The LBL Bevalac for the Heavy Nuclei Experiment on HEAO-3, compared the response of a set of laboratory ionization chambers to beams of 26Fe, 36Kr, 54Xe, 67 Ho, and 79Au nuclei at maximum energies ranging from 1666 MeV/amu for Fe to 1049 MeV/amu for Au. The response of these chambers shows a significant deviation from the expected energy dependence, but only a slight deviation from Z sq scaling.

Published

1985

46. Implications of source abundances of ultraheavy cosmic rays

Author

Binns, W. R, Garrard, T. L, Israel, M. H, Klarmann, J, Margolis, S. H, Stone, E. C, and Waddington, C. J

Subjects

Space Radiation

Abstract

The ratio of cosmic ray source abundance to solar-system abundance was examined for individual elements. Correlations of these ratios with first-ionization potential (FIP) and the expected mass-to-charge ratio (A/Q) of the elements in a million-degree plasma are analyzed. The FIP correlation was examined and it is shown that the correlation is affected by the choice of C2 or C1 chondritic meteorites as the solar-system standard for comparison. An A/Q correlation is suggested as a consequence of the shock acceleration model in the hot interstellar medium. The correlations are presented.

Published

1985

47. Bevalac calibration of the SOFIE range and hodoscope detectors

Author

Binns, W. R, Connell, J. J, Israel, M. H, and Klarmann, J

Subjects

Space Radiation

Abstract

The scintillating optical fiber isotope experiment (SOFIE) is a Cerenkov-dE/dx-Range experiment which was developed initially for balloon flight to study the isotopic composition of cosmic rays in the iron region. The electronic range and hodoscope detectors use scintillating optical fibers to image the tracks of stopping charged particles and to determine their trajectory. The particle range is determined and used together with a Cerenkov measurement to determine the mass of the stopping particle. Preliminary results of a Bevalac calibration performed in August, 1984 with a prototype of the balloon flight instrument, to study the measurement precision in range and trajectory which could be attained with this detector are described.

Published

1985

48. Relative abundances of elements (20 or = Z or = 28) at energies up to 70 GeV/amu using relativistic rise in ion chambers

Author

Barthelmy, S. D, Israel, M. H, and Klarmann, J

Subjects

Space Radiation

Abstract

The results of a new balloon borne cosmic ray detector flown from Palestine, TX in Sept., 1982 are discussed. The exposure of 62 square meter-ster-hr is sufficient to prove the concept of using gas ionization chambers as energy measuring devices in the relativistic rise region. The abundances, relative Fe-26, of the pure secondaries Cr-22 and Ti-24, the pure primary Ni26, and the mixed primary and secondary Ca-20 between 6 and 70GeV/amu were measured.

Published

1985

49. Abundances of secondary elements among the ultra heavy cosmic rays: Results from HEAO-3

Author

Klarmann, J, Margolis, S. H, Stone, E. C, Waddington, C. J, Binns, W. R, Garrard, T. L, Israel, M. H, and Kertzman, M. P

Subjects

Space Radiation

Abstract

Observations of the abundances of elements of charge 62 or Z or = 73 in the cosmic radiation from the HEAO-3 Heavy Nuclei Experiment (HNE) are discussed. These elements, having solar, and presumably source, abundances much less than the heavier Pt and Pb groups, are expected to be largely products of spallation. Thus they are indicators of the conditions prevailing during the propagation of cosmic rays. The abundances have changed from those reported previously due to a different data selection. This results in better charge resolution and in a higher mean energy for the particles. All the particles included were required to have had a cutoff rigidity R sub c 5 GV. This allowed the charge determination to be based solely on the Cherenkov measurement.

Published

1985

50. Interactions of heavy nuclei, Kr, Xe and Ho, in light targets

Author

Kertzman, M. P, Klarmann, J, Newport, B. J, Stone, E. C, Waddington, C. J, Binns, W. R, Garrard, T. L, and Israel, M. H

Subjects

Space Radiation

Abstract

Over the past few years, the HEAO-3 measurements of the abundances of ultra-heavy cosmic ray nuclei (Z 26) at earth have been analyzed. In order to interpret these abundances in terms of a source composition, allowance must be made for the propagation of the nuclei in the interstellar medium. Vital to any calculation of the propagation is a knowlege of the total and partial interaction cross sections for these heavy nuclei on hydrogen. Until recently, data on such reactions have been scarce. However, now that relativistic heavy ion beams are available at the LBL Bevalac, some of the cross sections of interest can be measured at energies close to those of the cosmic ray nuclei being observed. During a recent calibration at the Bevalac of an array similar to the HEAO-C3 UH-nuclei detector, targets of raphite (C), polyethylene (CH2), and aluminum were exposed to five heavy ion beams ranging in charge (Z) from 36 to 92. Total and partial charge changing cross sections for the various beam nuclei on hydrogen can be determined from the measured cross sections on C and CH2, and will be applied to the propagation problem. The cross sections on Al can be used to correct the abundances of UH cosmic rays observed in the HEAO C-3 detector for interactions in the detector itself.

Published

1985