Determination of the absolute intensities of cosmic-ray muons at sea level

劉愼言, Lau, Shun-yin.

January 1973

published_or_final_version / Physics / Master / Master of Philosophy

Cosmic rays - Measurement.

A study of background radiation and cosmic muon detection at the Aberdeen Tunnel laboratory in Hong Kong

Kwok, Talent., 郭天能.

January 2007

published_or_final_version / abstract / Physics / Master / Master of Philosophy

Muons.

Cosmic rays.

An experimental system for the study of the double beta decay problem

吳良溪, Ng, Leung-kai.

January 1964

published_or_final_version / Physics / Master / Master of Science

Beta rays.

Nuclear counters.

The absolute intensities of cosmic-ray muon

江鳳鸞, Kong, Fung-luen, Doreen.

January 1976

published_or_final_version / Physics / Master / Master of Philosophy

Muons.

Cosmic rays.

The radio spectra and cosmological evolution of extragalactic radio sources

Peacock, J. A.

January 1981

No description available.

523.0197223

Cosmic rays

COSMIC-RAY MODIFIED STELLAR WINDS (ACCELERATION, MODULATION, DIFFUSION, TRANSONIC SOLUTION).

KO, CHUNG-MING.

January 1986

A two fluid hydrodynamical model describing the modification of a stellar wind flow due to its interaction with galactic cosmic-rays is investigated. The two fluids consist of the thermal stellar wind gas and the galactic cosmic-rays. A polytropic one fluid model is used to describe the stellar wind gas, and the cosmic-rays modify the wind via their pressure gradient. The cosmic-rays are considered to be a hot low density gas of negligible mass flux, but with a significant pressure and energy flux compared to the thermal gas. The equations used are essentially those employed in two fluid hydrodynamical models of cosmic-ray shock acceleration by the first order Fermi mechanism, but suitably modified to apply in a spherical geometry and including the effects of gravity on the flow. The stellar wind consists of a transonic flow with a termination shock, and subsonic flow outside the shock. The model shows the deceleration of the wind upstream of the shock by the positive galactic cosmic-ray pressure gradient. The dissertation first discusses the fluid polytropic stellar winds and how to insert shocks in the flow. The hydrodynamical equations governing cosmic-ray modified winds are then introduced followed by a discussion of the physics of the interaction between the thermal stellar wind and the cosmic-rays. A description of the singularities of the equations is also presented. The system of equations is first solved by a finite difference method in the test particle approximation in which the cosmic-rays do not modify the flow, with appropriate boundary conditions applied at infinity, at the wind termination shock, and at the star. A perturbation scheme to determine the modification of the wind by the cosmic-rays is then developed. This scheme applies when the modification of the wind by the cosmic-rays is sufficiently small. Finally a numerical iteration is employed to exactly solve the equations. This latter method has the advantage that it can be applied when there is a considerable modification of the wind by the cosmic-rays.

Cosmic rays -- Models.

Spectral studies of cosmic x-ray sources

Blissett, R. J.

January 1980

No description available.

523.0197223

Cosmic rays

A multi-wavelength study of the active galaxy 3C 273

Leach, Christopher Mark

January 1995

No description available.

523.01

Quasars; X-rays

A search for high transverse momentum subcores in cosmic ray air showers

Foster, J. M.

January 1982

No description available.

523.0197223

Cosmic rays

A search for ultra high energy gamma ray sources from the South Pole

Smith, Nigel James Telfer

January 1990

No description available.

523.0197223

Cosmic rays