The polarized orbital approximations for electron impact excitation of hydrogen

Lloyd, M. David

January 1969

No description available.

530

Scattering theory

Gamma-ray Compton spectroscopy of metals and alloys

Hamouda, Samir A.

January 1995

No description available.

530.41

Compton scattering theory

A novel x-ray tube for the non destructive examination of light materials

Fennell, Sharon M.

January 1997

No description available.

620.0044

Photon scattering theory

Correlation techniques for application in photon correlation spectroscopy

Courtney, Peter R.

January 1989

No description available.

539.7

Light scattering theory

Quantum transport in nanostructures

Todorov, Tchavdar N.

January 1993

No description available.

530.1

Scattering theory

The scattering problem on two half-lines with transfer-matrix condition at the origin

Emmett, Richard John

06 May 2009

Abstract The mathematical analysis of scattering theory has been a major area of interest in mathematics and physics research since the latter half of the twentieth century. The aim of this work is to examine, in a functional analytic setting, properties of the differential operator L and solutions involved for scattering on the line −∞ < x < ∞. The characterisation of the spectrum of L will provide insight into the physical interpretation of the problem. The study of scattering theory will proceed with the major results in the field being presented with particular focus on reflectionless scattering. Attention is then directed to the inverse reflectionless case. We look at scattering on the line with a matrix transfer condition at the origin in addition an overview of the inverse case is presented.

scattering theory

mathematics

physics

Models for sound propagation in suspensions and emulsions

Evans, Jonathan M.

January 1996

Theoretical and experimental work on sound propagation in suspensions and emulsions is reviewed. Three theoretical approaches are identified: scattering theory, coupled phase theory and porous media theory. Coupled phase theory is extended and compared analytically and numerically to scattering and porous media theory. Important regimes of scattering theory - the lossless and viscothermal scattering, single and multiple scattering and incoherent scattering regimes - are examined. Experimental data is used to corroborate lossless multiple scattering theory in the short wavelength, high volume fraction region. Previous coupled phase theories have modelled sound propagation in two phase media (i) with heat transfer assuming incompressible particles and (ii) with a compressible particulate phase neglecting heat transfer. Type (i) models are examined analytically and compared to scattering theory. Types (i) and (ii) are compared and brought together in a more general coupled phase theory. The new theory provides an alternative model to scattering theory for sound propagation in emulsions. Predictions of the new theory are compared to experimental data and predictions of scattering theory. Conditions for the equivalence of the frameless Biot porous media theory and coupled phase theory are identified. Predictions of the two approaches are compared to experimental data. New measurements of pore size distribution are used to predict measured acoustical properties of air saturated glass beads. Other extensions to coupled phase theory are reviewed and developed. Predictions including the effect of high volume fraction on the drag and the induced mass force are compared to experimental data and predictions of porous media theory. Coupled phase theory including heat transfer is extended to include particle size distributions; predictions of tl-ds are compared to measurements. The effect of non-spherical particles is investigated. Using the theory of Culick, frequency shifts for modes in an enclosure into which a suspension has been introduced are calculated. These are compared to the predictions of an intuitive approach. The method of Margulies and Schwartz for modelling particle diffusion is discussed. Areas where further work is required are identified.

534

Scattering theory

Anisotropic single-site scattering theory for space-filling potentials

Lovatt, Stephen Charles

January 1993

No description available.

530.41

Wronskian scattering theory; Silicon

X-ray scattering studies of rare earth and actinide antiferromagnets

Perry, Stewart Charles

January 1997

No description available.

530.41

Development of laser scattering techniques to measurement of particles

Lin, Shi Mu

January 1996

No description available.

535