A GAMMA RAY IONIZATION CHAMBER

EGRET, the high-energy γ-ray telescope on the Compton Gamma-Ray Observatory, has the sensitivity, angular resolution, and background rejection necessary to study diffuse γ-ray emission from the interstellar medium (ISM). High-energy γ rays produced in cosmic-ray (CR) interactions in the ISM can be used to determine the CR density and calibrate the CO line as a tracer of molecular mass. Dominant production mechanisms for γ rays of energies ∼30 MeV–30 GeV are the decay of pions produced in collisions of CR protons with ambient matter and Bremsstrahlung scattering of CR electrons.

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Gamma-Ray Bursts and Binary Neutron Star Mergers

Symposium - International Astronomical Union ◽

10.1017/s0074180900055959 ◽

1996 ◽

Vol 165 ◽

pp. 489-502

Author(s):

Tsvi Piran

Keyword(s):

Neutron Star ◽

Gravitational Radiation ◽

Gamma Ray ◽

Indirect Evidence ◽

Gamma Ray Bursts ◽

Binary Neutron Star ◽

Merger Event ◽

Γ Rays ◽

Γ Ray ◽

The One

Neutron star binaries, such as the one observed in the famous binary pulsar PSR 1913+16, end their life in a catastrophic merger event (denoted here NS2M). The merger releases ∼5 1053 ergs, mostly as neutrinos and gravitational radiation. A small fraction of this energy suffices to power γ-ray bursts (GRBs) at cosmological distances. Cosmological GRBs must pass, however, an optically thick fireball phase and the observed γ rays emerge only at the end of this phase. Hence, it is difficult to determine the nature of the source from present observations (the agreement between the rates of GRBs and NS2Ms providing only indirect evidence for this model). In the future a coinciding detection of a GRB and a gravitational-radiation signal could confirm this model.

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A Possible Discovery of a Flaring 1012 eV Gamma-Ray Source near the Red Dwarf EV Lac

International Astronomical Union Colloquium ◽

10.1017/s0252921100034643 ◽

1995 ◽

Vol 151 ◽

pp. 78-79

Author(s):

I.Yu. Alekseev ◽

N.N. Chalenko ◽

V.P. Fomin ◽

R.E. Gershberg ◽

O.R. Kalekin ◽

...

Keyword(s):

Gamma Ray ◽

Electronic Device ◽

Angular Size ◽

High Energy ◽

Optical Systems ◽

Relativistic Electrons ◽

Large Area ◽

Γ Rays ◽

Γ Ray ◽

Ev Lac

During the 1994 coordinated observations of the red dwarf flare star EV Lac, the star was monitored in the very high energy (VHE) γ-ray range around 1012 eV with the Crimean ground-based γ-ray telescope GT-48. This telescope consists of two identical optical systems (Vladimirsky et al. 1994) which were directed in parallel on EV Lac.The detection principle of the VHE γ-rays is based on the Čerenkov radiation emitted by relativistic electrons and positrons. The latter are generated in the interaction of the γ-rays with nuclei in the Earth’s atmosphere that leads to an appearance of a shower of charged particles and γ-quanta. The duration of the Cherenkov radiation flash is very short, just about a few nanoseconds. The angular size of the shower is ∼ 1°. To detect such flashes we use an optical system with large area mirrors and a set of 37 photomultipliers (PMs) in the focal plane. Using the information from these PMs which are spaced hexagonally and correspond to a field of view of 2°.6 on the sky, we can obtain the image of an optical flash. The electronic device permits us to detect nanosecond flashes (40 ns exposure time and 12 μs readout dead-time).

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Radiocarbon Production by the Gamma-Ray Component of Supernova Explosions

Radiocarbon ◽

10.1017/s003382220003109x ◽

1995 ◽

Vol 37 (2) ◽

pp. 599-604 ◽

Cited By ~ 21

Author(s):

Paul E. Damon ◽

Dai Kaimei ◽

Grant E. Kocharov ◽

Irina B. Mikheeva ◽

Alexei N. Peristykh

Keyword(s):

Cross Section ◽

Tree Rings ◽

Confidence Level ◽

Gamma Ray ◽

Visual Observation ◽

Total Production ◽

Average Increase ◽

Supernova Explosions ◽

Γ Rays ◽

Γ Ray

We selected SN1006, the brightest and closest to Earth of all supernovas historically observed, for a study of 14C production by e−,e+-bremsstrahlung cascades initiated by hard γ rays (>10 MeV) from that event. During the cascade, bremsstrahlung energies eventually fall within a giant (n,γ), (n,2γ) cross-section, peaking at 23 MeV and approaching effectively zero below 10 MeV and above 40 MeV. The neutrons are absorbed primarily in the reaction 14N(n,p)14C. Cellulose from single-year tree rings from ad 1003 to ad 1020 was measured to determine ∆14C. Three years after the first visual observation of SN1006, ∆14C rose and remained above pre-ad 1009 values until ad 1018. Comparison of the 7 years before ad 1009 with the 9 years following show an average increase of 6.1 ± 1.6 (s.d.)‰ (significant at the 99.6% confidence level). Such a pulse of 14C requires a total production of neutrons of 17.1 × 107n cm−2e, implying an input of 11.3 × 104 ergs cm−2e γ-ray energy. This requires the total supernova γ-ray energy (>10 MeV) to have been 1 × 1050 ergs.

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Study of Template Measurement of Plutonium Pit Based on Gamma-Ray Detection

18th International Conference on Nuclear Engineering: Volume 3 ◽

10.1115/icone18-29486 ◽

2010 ◽

Author(s):

Changfan Zhang ◽

Jian Gong ◽

Junrui Teng ◽

Suping Liu

Keyword(s):

Spontaneous Fission ◽

Counting Rate ◽

Gamma Ray ◽

Unique Property ◽

Nuclear Disarmament ◽

Neutron Counting ◽

Neutron Counting Rate ◽

Γ Rays ◽

Γ Ray ◽

Nuclear Warhead

Template measurement is an important method in deep nuclear disarmament. The gamma-ray spectrum of Plutonium pit shows unique property due to age, abundance, amounts and thickness of the Plutonium pit; that is, same designed pits yield similar gamma-ray spectra while different design give distinct spectra. Useful information is extracted from gamma-ray spectrum generated by the reliable Plutonium pit radiation as ‘template’. Comparison of the data from inspected objects with the template can give conclusion whether they are of the same type. This paper studies how to choose template data from gamma-ray spectrum and discusses the limits of the gamma-ray measurement. Because of the strong self-absorption of Plutonium, some characteristics of Plutonium pit can’t be identified only by gamma spectrum. MCNP simulation was employed to prove that in some cases, template depending on gamma-ray spectrum from the reliable Plutonium pit alone can’t effectively distinguish the spurious objects. And a further approach indicates that enhancing neutron counting rate of spontaneous fission of Plutonium can improve the problem. Neutron counting rate can be indirectly acquired by spontaneous fissile neutrons bombarding a 10B target. 478 keV γ rays are concomitant with the nuclear reaction 10B(n,α)7Li* from 7Li* nuclei’s deexcitation. Neutron information is gathered by detecting 478 keV γ photons. Using HPGe γ detector can both detect γ-ray spectrum and acquire neutron counting rate. This method efficiently increases confidence of template measurement and also ensures the dismantling process without revealing sensitive nuclear warhead design information.

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Levels in 45Sc from Radiative Proton Capture in 44Ca

Canadian Journal of Physics ◽

10.1139/p74-020 ◽

1974 ◽

Vol 52 (2) ◽

pp. 131-139 ◽

Cited By ~ 4

Author(s):

R. L. Schulte ◽

J. D. King ◽

H. W. Taylor

Keyword(s):

Decay Scheme ◽

Bound States ◽

Gamma Ray ◽

Angular Distributions ◽

Distribution Data ◽

Excitation Energies ◽

Proton Capture ◽

Resonant States ◽

Γ Rays ◽

Γ Ray

A total of 22 resonances has been observed in the 44Ca(p,γ)45Sc reaction within the incident proton energy range of 600 to 930 keV. Gamma-ray singles spectra and γ-ray angular distribution data were accumulated for resonances at Ep = 856 and 906 keV. Both of these resonant states have been found to have spin 3/2. The measured angular distributions of primary γ rays from the resonant states have given spin information on the intermediate bound states of 45Sc with excitation energies above 2 MeV. A γ-ray decay scheme has been derived from the γ-ray spectra. The data indicate new levels at 2151.0, 3525.2, 3548.5, 3584.0, and 3714.3 keV.

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Comparison of Lu3Al5O12:Ce and LaBr3:Ce Scintillators in Gamma-Ray Spectrometry

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.418-420.922 ◽

2011 ◽

Vol 418-420 ◽

pp. 922-927

Author(s):

Weerapong Chewpraditkul ◽

Chalerm Wanarak ◽

Marek Moszynski ◽

Lukasz Swiderski

Keyword(s):

Energy Resolution ◽

Gamma Ray ◽

Light Yield ◽

Gamma Ray Spectrometry ◽

Timing Resolution ◽

Intrinsic Resolution ◽

Γ Rays ◽

Γ Ray ◽

Coincidence Timing ◽

Better Than

The performances of Ce-doped Lu3Al5O12(LuAG:Ce) and LaBr3(LaBr3:Ce) scintillators were compared for γ-ray detection using photomultiplier tube ( XP5500B PMT) readout. For 662 keV γ-rays (137Cs source), an energy resolution of 3.5% obtained for LaBr3:Ce is much better than that of 6.7% obtained for LuAG:Ce, while the estimated photofraction of 28.0% for LuAG:Ce is higher than that of 16.2% for LaBr3:Ce. The light yield non-proportionality and energy resolution versus γ-ray energy were measured and the intrinsic resolution of the crystals was calculated. The coincidence timing resolution, obtained in this work for 511 keV annihilation quanta, was 583 ps and 204 ps, respectively, for LuAG:Ce –BaF2and LaBr3:Ce – BaF2detectors.

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GENETIC ANALYSIS OF GAMMA-RAY MUTAGENESIS IN YEAST. I. REVERSION IN RADIATION-SENSITIVE STRAINS

Genetics ◽

10.1093/genetics/93.2.361 ◽

1979 ◽

Vol 93 (2) ◽

pp. 361-373

Author(s):

Richard H McKee ◽

Christopher W Lawrence

Keyword(s):

Ionizing Radiation ◽

Genetic Analysis ◽

Gamma Ray ◽

Wild Type ◽

Uv Mutagenesis ◽

Major Pathway ◽

Gene Functions ◽

Γ Rays ◽

Γ Ray ◽

Type Strains

ABSTRACT The frequency of revertants induced by 6OCo γ rays of the ochre allele, cyc1-9, has been measured in radiation-sensitive strains carrying one of 19 nonallelic mutations and in wild-type strains. The results indicate that ionizing radiation mutagenesis depends on the activity of the RAD6 group of genes and that the gene functions employed are very similar, but probably not identical, to those that mediate UV mutagenesis. Repair activities dependent on the functions of the RAD50 through RAD57 loci, the major pathway for the repair of damage caused by ionizing radiation, do not appear to play any part in mutagenesis. A comparison between the γ-ray data and those obtained previously with UV (LAWRENCE and CHRISTENSEN 1976) and chemical mutagens (PRAKASH 1976) suggests that the RAD6 "mutagenic pathway" is in fact composed of a set of processes, some of which are concerned with error-prone, and some with error-free, recovery activities.

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HIGH-RESOLUTION STUDIES OF GAMMA-RAY SPECTRA USING LITHIUM-DRIFT GERMANIUM GAMMA-RAY SPECTROMETERS

Canadian Journal of Physics ◽

10.1139/p64-208 ◽

1964 ◽

Vol 42 (11) ◽

pp. 2286-2331 ◽

Cited By ~ 208

Author(s):

G. T. Ewan ◽

A. J. Tavendale

Keyword(s):

High Resolution ◽

Gamma Ray ◽

High Energy ◽

Factors Affecting ◽

Γ Rays ◽

Γ Ray

This paper describes the use of germanium lithium-drift p-i-n diodes as high-resolution γ-ray spectrometers. With these spectrometers we have obtained γ-ray resolutions of 2.05 keV at 122 keV, 4.0 keV at 1333 keV, and 5.5 keV at 2614 keV. Using the detectors as pair spectrometers for high-energy γ rays, we have obtained a resolution of 9.8 keV on a 7.6-MeV γ ray. The factors affecting the resolution of the detectors are discussed. Fano factors of ~0.4 have been observed. Efficiency curves are given for a 2.5 cm2 × 3.5 mm detector and for a 5 cm2 × 8 mm detector.The detectors have been used to make high-resolution studies of the complex γ-ray spectra from sources of 131Cs, 161Pm, 153Gd, 156Eu, 159Gd, 177Yb, and 226Ra. Results are reported for the energies and intensities of the γ rays observed in these studies.

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High-energy Galactic phenomena and the interstellar medium

Symposium - International Astronomical Union ◽

10.1017/s0074180900242502 ◽

1985 ◽

Vol 106 ◽

pp. 225-233

Author(s):

Catherine J. Cesarsky

Keyword(s):

Magnetic Fields ◽

Interstellar Medium ◽

Molecular Hydrogen ◽

Gamma Ray ◽

Cosmic Ray ◽

High Energy ◽

Small Scale ◽

The Galaxy ◽

Γ Rays ◽

Γ Ray

Gamma rays of energy in the range 30 MeV-several GeV, observed by the satellites SAS-2 and COS-B, are emitted in the interstellar medium as a result of interactions with gas of cosmic-ray nuclei in the GeV range (π° decay γ rays) and cosmic-ray electrons of energy > 30 MeV (bremsstrahlung γ rays). W. Hermsen has presented at this conference the γ ray maps of the Galaxy in three “colours” constructed by the COS-B collaboration; the information in such maps is supplemented by radio-continuum studies (see lecture by R. Beck), and is a useful tool for studying the distribution of gas, cosmic rays (c.r.) and magnetic fields in the Galaxy. The variables in this problem are many:large-scale (~ 1 kpc) and small-scale (~10 pc) distributions of c.r. nuclei, of c.r. electrons, of atomic and molecular hydrogen, of magnetic fields, fraction of the observed radiation due to localized sources, etc. Of these, only the distribution - or at least the column densities - of atomic hydrogen are determined in a reliable way. Estimates of the amount of molecular hydrogen can be derived from CO observations or from galaxy counts. The radio and gamma-ray data are not sufficient to disentangle all the other variables in a unique fashion, unless a number of assumptions are made (e.g. Paul et al. 1976). Still, the COS-B team has been able to show that :a) there is a correlation between the gamma-ray emission from local regions, as observed at intermediate latitudes, and the total column density of dust, as measured by galaxy counts. The simplest interpretation is that the density of c.r. nuclei and electrons is uniform within 500 pc of the sun, and that dust and gas are well mixed. Then, γ rays can be used as excellent tracers of local gas complexes (Lebrun et al. 1982, Strong et al. 1982).b) In the same way, the simplest interpretation of the γ-ray emission at energy > 300 MeV from the inner Galaxy, is that c.r. nuclei and electrons are distributed uniformly as well : there is no need for an enhanced density of c.r. in the 3–6 kpc ring; on the contrary, even assuming a uniform density of c.r., the γ-ray data are in conflict with the highest estimates of molecular hydrogen in the radio-astronomy literature (Mayer-Hasselwander et al. 1982).c) In the outer Galaxy, the gradient of c.r. which had become apparent in the early SAS-2 data can now, with COS-B data, be studied in three energy ranges. A gradient in the c.r. distribution is only required to explain the low-energy radiation, which is dominated by bremsstrahlung from relativistic electrons (Bloemen et al., in preparation).

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