Development and characterization of a solid state detector array for a large scale gamma-ray imaging system /

Bastani, Bamdad

January 1980

No description available.

Engineering

Semiconductor nuclear counters

Gamma rays

The gamma-ray decay of TM¹⁶⁵, TA¹⁷⁶, LU¹⁷⁶m and Ta¹⁷⁵ /

Staehle, George Gardner

January 1964

No description available.

Physics

Gamma rays

Thulium

Tantalum

Lutetium

Techniques developed for measuring directional correlations between X rays and conversion electrons or gamma rays in the study of Cerium 139 /

Measel, Paul Russell

January 1967

No description available.

Physics

X-rays

Gamma rays

Cerium

Advancements in Very-High-Energy Gamma-Ray Astronomy with Applications to the Study of Cosmic Rays

Petrashyk, Andrii

January 2019

This work aims to contribute to the study of the origins of cosmic rays, and broadly, to the advancement of both data analysis methods and instrumentation for very-high-energy γ-ray astronomy. First, reviewing the state of γ-ray astronomy, we show how gains in sensitivity can be achieved through sophisticated data analyses and improved instrumental designs. We then develop such an improved analysis method for the Very Energetic Radiation Imaging Telescope Array System (VERITAS) by combining Image Template Method (ITM) with Boosted Decision Trees (BDT), and study its performance, attaining a 30-50% improvement in integral sensitivity over the instrument’s standard analysis. Systematic issues in spectral reconstruction that the analysis displays are resolved satisfactorily by imposing a more stringent condition on the selection of its energy threshold. We employ the newly developed analysis to measure the γ-ray energy spectrum of the starburst galaxy M82, and combining our result with a measurement from the Fermi Large Area Telescope (Fermi-LAT), we find that a single power law fits the spectrum well between 100 GeV and 10 TeV, with no evidence for a spectral break or a cutoff. We conclude that this is in line with the current understanding that M82 is not a good proton calorimeter. Finally, we detail the design, implementation, and performance of the optical alignment system of the prototypeSchwarzschild-Couder Telescope (pSCT) for the Cherenkov Telescope Array (CTA), a novel two-mirror design that addresses many shortcomings of current instruments.

Astrophysics

Cosmic rays

Gamma ray astronomy

Gamma rays--Measurement

Gamma rays--Data processing

An investigation of the angular correlations of the neutron induced Europium activities

Webster, Walter Murl.

January 1958

Call number: LD2668 .T4 1958 W45

Angular correlations (Nuclear physics)

Europium.

Gamma rays.

Masters theses

Modeling of gamma rays streaming through straight rectangular ducts

Thompson, Kyle Richard.

January 1985

Call number: LD2668 .T4 1985 T476 / Master of Science

Shielding (Radiation)--Evaluation.

Masters theses

Evaluation of a four-element beta gamma personnel dosimetry badge

Tietze, Lorrie R.

January 1985

Call number: LD2668 .T4 1985 T53 / Master of Science

Dosimeters--Evaluation.

Beta rays--Measurement.

Gamma rays--Measurement.

Masters theses

Exploring the bizarrerie : research on selective physical processes in gamma-ray bursts

Shen, Rongfeng

02 November 2010

Gamma-ray bursts (GRBs) are the mysterious, short and intense flashes of gamma-rays in the space, and are believed to originate from the rare, explosively devastating, stellar events that happens at cosmological distances. Enormous progress has been made from four decades of GRB research endeavor but the ultimate understanding of their origins has yet to arrive. Recently revealed features in their early afterglows broadened the opportunity space for exploration. We have carried out extensive studies on various physical processes in GRBs. We showed that the distribution of electrons' energy spectral index in GRBs and other relativistic sources is inconsistent with the prediction from the first-order Fermi theory of the shock particle acceleration. We investigated the photon scattering processes within the relativistic outflow that produces the GRB and calculated the resultant emission flux from it. We showed the scattering of the GRB prompt photons by the circum-burst dust, although an attractive possibility, can not explain the puzzling plateau component in the GRB afterglow light curve. We made meaningful constraint on the GRB prompt emission radius, R [greater-than or equal to] 10¹⁴, by studying the synchrotron self absorption for a small sample of bursts with good data. We showed that a late jet, which is thought to be producing the late X-ray flares in GRB afterglows, will produce detectable emissions from its interactions with other components in the explosive event of GRB, and identification of these emissions could verify the existence of the late jet and further prove the massive star origin of long-duration GRBs. / text

Gamma-rays

Gamma-ray bursts

Relativity

Photon scattering

Light curve

D-D and D-T Neutron Excitation of Energy Levels in Cs133

Dawson, Horace Ray

01 1900

The purpose of this experiment was to make positive assignment of the Cs133 energy levels excited by the inelastic scattering of neutrons.

energy levels

neuton excitation

Neutrons -- Scattering.

Cesium.

Gamma rays.

Measuring the energies and multiplicities of prompt gamma-ray emissions from neutron-induced fission of 235 U using the STEFF spectrometer

Ryan, James

January 2018

Following a NEA high priority nuclear data request, an experimental campaign to measure the prompt Î3-ray emissions from 235 U has been performed. This has used the STEFF spectrometer at the new Experimental Area 2 (EAR2) within the neutron time- of-flight facility (n_TOF), a white neutron source facility at CERN with energies from thermal to approximately 1 GeV. Prior to the experimental campaign, STEFF has been optimised for the environment of EAR2. The experimental hall features a high background Î3-ray rate, due to the nature of the spallation neutron source. Thus an investigation into reduction of the background Î3-ray rate, encountered by the NaI(Tl) detector array of STEFF, has been carried out. This has been via simulations using the simulation package FLUKA. Various materials and shielding geometries have been investigated but the effects determined to be insufficient in reducing the background rate by a meaningful amount. The NaI(Tl) detectors have been modified to improve their performance in a high count rate environment, and their behaviour characterised to understand the response to higher count rates. Initial testing demonstrated that the modified detectors maintain a potential to measure Î3-ray multiplicities up to 3 counts per microsecond. However, the energy resolution fails somewhere below 1.75 counts per microsecond. The experimental campaign has produced a large amount of data. The preliminary analysis of phase one data has considered incoming neutron energies ranging from thermal to an upper limit of 1 eV, with a minimum Î3-ray energy threshold of 160 keV. Results have been achieved for the prompt fission Î3-ray multiplicity and total energy of M Î3 = 6.3 ± 0.2 and E S,Î3 = 9.0 ± 0.1 MeV respectively. Further work is ongoing by the STEFF team at Manchester to improve upon these results and analyse the remainder of the data set at higher incoming neutron energies.

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