Investigation of the muon component of EAS initiated by primary radiation from Hercules X-1

Barley, Steven Keith

January 1990

No description available.

523.0197223

Cosmic rays detection

A study of the muon content of EAS initiated by the UHE gamma-ray emission from Cygnus X-3

Edwards, Peter J.

January 1990

No description available.

523.0197223

Cosmic rays detection

A search for diffuse and point source emission of UHE gamma rays using muon content selected EAS

Tummey, Steven Peter

January 1993

No description available.

523.0197223

Cosmic rays

Analysis of hypervelocity impacts on the thermal blankets of the ultra heavy cosmic ray experiment from the long duration exposure facility

Mullen, Steven

January 1994

No description available.

523.0197223

Cosmic rays

Observations of the muon component of PeV EAS

Hembrow, K. P.

January 1990

No description available.

523.0197223

Cosmic rays

Shock waves in supernova remnants

Bohigas Bosch, J.

January 1981

No description available.

523.0197223

Cosmic rays

The lateral distribution of Cerenkov light in large cosmic ray showers as a measure of longitudinal development

Craig, M. A. B.

January 1984

This thesis reports measurements made on the longitudinal cascade of high energy cosmic ray showers using observations of atmospheric Cerenkov light. The lateral distribution of the Cerenkov light shower has been shown to be one of the measurable ground parameters which is sensitive to cascade development. The interpretation of such measurements together with other depth sensitive parameters in recorded showers has allowed inferences to be made about the mass distribution of the primary particles and about the nature of the high energy interactions which govern the generation of the cascade through the atmosphere. Measurements of atmospheric Cerenkov light from showers between 10(^15) – 10(^18) eV were made at Dugway Proving Grounds, Utah, U.S.A. between October 1977 and March 1980, using an array of fast photo multipliers to record both the lateral distribution of light density and the time structure of the light pulses. This thesis concerns the detailed analysis and interpretation of the lateral distribution data. These results were subsequently combined with those from pulse timing measurements to present composite results on the gross feature of shower development, the depth of cascade maximum. Analysis techniques have been developed to determine both the average characteristics of the lateral distribution and the fluctuations in the data which could be attributed to intrinsic fluctuations in cascade development. The results of these analyses were then related, through the results of computer simulations of shower development, to the depth of cascade maximum. A change in the elongation rate and the magnitude of fluctuations between 10(^16) and 10(^17) eV has been observed and this is interpreted as a change in primary mass composition from predominantly heavy particles ~ 10(^16) eV to include a greater proportion of light nuclei ~ 2 x 10(^17) eV. The combined measurement of the mean and fluctuations in the depth of maximum has allowed certain interaction models to be rejected. These were those involving scaling in the central region or using an interaction cross section which remains constant with energy. Results from other observations of cosmic ray showers show further indication of the change in primary mass composition between ~ 10(^16) eV and ~ 2 x 10(^17) eV. At higher energies these other results indicate a mass composition changing little with energy.

523.0197223

Cosmic rays

An angular correlation of positron annihilation gamma radiation with a NaI (T1) detector and a Ge (Li) detector

Peacock, Cloyd E.

January 1970

Several high quality electronic units were previously acquired on an individual basis from various manufacturers. As the second research effort in a planned complementary series of papers, the capability of the total array of equipment to accomplish reliable measurements of nuclear radiation was established.To evaluate the performance of the electronic units when assembled into a working coincidence system with associated test and analysis units, positron emitter, was employed with a copper converter as the source of annihilation gamma rays. The annihilation pair gamma-ray energies was precisely 0.511 MeV and the rays were emitted in opposite directions simultaneously. With a range of results that must be attained known, the equipment was arranged, meticulously calibrated and many coincidence counts completed under widely varied conditions. Resolving time and angular resolution were used as the standards for evaluation of the equipment capability. The resolving time was 29.5 nanoseconds while the angular resolution was 14 degrees. These values indicate a very good capability to proceed with many varieties of nuclear radiation research.

Gamma rays.

Positron annihilation.

A Computer Analysis of Complex Gamma-Ray Spectra

Cunningham, William K.

08 1900

The purpose of this investigation was to provide a method for determining the relative intensities of all gamma rays in a particular spectrum, and thereby determine the relative transition probabilities.

gamma rays

computer program

X-ray scattering by cosmic dust grains

Norwell, George A.

January 1990

No description available.

523.0197223

Cosmic rays