Investigation of mesonic interaction processes in nuclear emulsions

Goodhead, Dudley T.

January 1965

No description available.

Nuclear emulsions ; Hyperfragments

An investigation of the spurious scattering of high energy particles in nuclear emulsion

Jones, James Jordan, 1938-

January 1963

No description available.

Particles (Nuclear physics)

Nuclear emulsions.

The mass spectrum of cosmic ray primaries

Goldberg, Harvey Jay.

January 1966

Call number: LD2668 .T4 1966 G618 / Master of Science

Cosmic rays--Spectra.

Nuclear emulsions.

Masters theses

The search for a unit magnetic pole in nuclear emulsions

Parnell, Darrell Ray.

January 1959

Call number: LD2668 .T4 1959 P38

Nuclear emulsions.

Nuclear magnetism.

Masters theses

Nuclear decay scheme studies of some tantalum and terbium isotopes

Faler, Kenneth T.

January 1959

Thesis--University of California, Berkeley, 1959. / Includes bibliographical references (p. 81-84).

Interactions of 200 GeV protons with emulsion nuclei.

Hartner, Gerd F.

January 1973

No description available.

Protons

Collisions (Nuclear physics)

Nuclear emulsions

Particles (Nuclear physics)

Interactions of 200 GeV protons with emulsion nuclei.

Hartner, Gerd F.

January 1973

No description available.

Protons

Particles (Nuclear physics)

Collisions (Nuclear physics)

Nuclear emulsions

A range-ionization method to identify stopping Kaons in ILFord G.5 nuclear emulsion

Elkadi, Sadiq Mohamed

03 June 2011

The identification of stopping charged particles in G.5 nuclear emulsion by using a residual range ionization method has been investigated in this experiment using a large stack of ILFord, G.5 nuclear emulsion pellicles exposed to 450 and 435 Me V/c K ˉ mesons at the Berkeley Bevatron.The restricted rate of energy loss vs kinetic energy for protons has been calculated theoretically, and given in Barkas(9). Then for given values of B , we calculated the restricted rate of energy loss vs the kinetic energy of muon, pion, kaon, and sigma particles.The measurement of the residual range and the counting of blobs in each residual range segment were carried out for four known stopping pions tracks. A second degree polynomial computer fit program was used to interpret the plot of residual range vs blobs/100 μ m. Then a particular point on the plot was chosen as a reference for normalizing the relative grain density (g*), theoretically and experimentally. Next, theoretical tables of residual range (R) vs relative grain density (g*theo) were calculated for muons, pions, kaons, protons, and sigmas. Those portions of the latter tables, for which (g*theo) was less than - 2, were used for the above mentioned theoretical plot of residual range (R) vs relative grain density (g* theo). The theoretically predicted curves were then tested by experimentally measuring the residual range and counting the blobs of each range segment of two selected stopping particle (primary) tracks which we suspected to be stopping kaon tracks. Then the second degree polynomial computer fit to the plotted data of the measured residual range vs blobs/l00 μm was carried out for each of the two suspected stopping kaon particles. Three points from each curve were picked and superimposed on the theoretical curves. The results were good but showed that it is necessary to measure a sufficiently long residual range, and more than one segment of blob-counts should be used along the measured residual range for accurate identification of the given particle.Ball State UniversityMuncie, IN 47306

Stopping power (Nuclear physics)

Nuclear emulsions.

Ball State University. Thesis (M.S.)

The impact of TeV nucleus-nucleus simulations on JACEE results /

Zager, Eric Louis,

January 2002

Thesis (Ph. D.)--University of Washington, 2002. / Vita. Includes bibliographical references (p. 71-76).