Your search keyword '"J P R Bolton"' showing total 13 results

1. Dielectric theory in the superlattice limit

Author

J P R Bolton, T Neyer, and P Schattschneider

Published

2022

2. Physica: A Computer Environment for Physics Problem-Solving

Author

Shelagh Ross and J. P. R. Bolton

Subjects

Software, Glossary, Computer science, business.industry, Integrated software, Distance education, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Symbolic computation, business, Computer Science Applications, Education

Abstract

Physica is an integrated software package designed as part of a course for distance learning students from non-traditional educational backgrounds. It gives students access to an extensive hyperlinked physics glossary, computer algebra and graph-plotting tools. The package aims to give students a framework for solving physics problems and to help them acquire some higher level skills of quantitative problem-solving. This paper outlines rationales underlying various protocols for solving physics problems, and discusses the extent to which frameworks may be useful in helping students develop appropriate strategies for representing problems in formal terms, selecting targets, planning solutions and checking answers. Pedagogical issues underlying the design and implementation of the software are discussed.

Published

2002

3. Electron energy loss in multilayered slabs. III. Anisotropic media

Author

M Chen and J P R Bolton

Subjects

Work (thermodynamics), Recurrence relation, Condensed matter physics, Chemistry, business.industry, Semiclassical physics, Dielectric, Condensed Matter Physics, Transfer matrix, Optics, Dispersion relation, General Materials Science, Anisotropy, business, Incidence (geometry)

Abstract

This work extends the non-retarded semiclassical dielectric theory of electron energy loss to multilayers composed of anisotropic media. A transfer matrix recurrence relation is used to obtain expressions for the potential, dispersion relation and energy-loss spectrum, valid for any finite number of anisotropic layers and any orientation of the anisotropy axes. Both normal and parallel incidence are considered in the non-retarded limit. These theoretical results are illustrated by application to graphite surfaces and graphite-diamond interfaces.

Published

1995

4. Electron energy loss in multilayered slabs. I. Normal incidence

Author

M Chen and J P R Bolton

Subjects

Physics, Work (thermodynamics), Condensed matter physics, business.industry, Physics::Optics, Semiclassical physics, Dielectric, Electron, Condensed Matter Physics, Transfer matrix, Discontinuity (linguistics), Optics, Dispersion relation, Slab, General Materials Science, business

Abstract

This work develops the semiclassical dielectric theory of energy loss, including retardation effects, for electrons travelling normal to a stratified slab. Starting from a transfer matrix formulation and using computer algebra, we obtain closed formulae for the dispersion relation, the Hertz vector and the energy-loss spectrum, valid for any finite number of layers. Our results are applied to multilayers of Al/Al2O3 and are used to investigate the validity of modelling a single interface by a sharp discontinuity in the dielectric function.

Published

1995

5. Electron energy loss in multilayered slabs. II. Parallel incidence

Author

M Chen and J P R Bolton

Subjects

Recurrence relation, Chemistry, Position (vector), Dispersion relation, Mathematical analysis, Mineralogy, General Materials Science, Boundary value problem, Electron, Condensed Matter Physics, Transfer matrix, Beam (structure), Incidence (geometry)

Abstract

This paper develops the dielectric theory of energy loss, including retardation effects, for electrons travelling parallel to the interfaces of a stratified slab. A transfer matrix recurrence relation is introduced to implement the boundary conditions at surfaces and interfaces. This recurrence relation is solved exactly to provide closed formulae for the Hertz vector, the dispersion relation and the energy-loss probability, valid for any position of the beam and any number of layers. The non-retarded limits of these expressions are also examined and compared with the results of a simpler calculation based directly on Poisson's equation. Our final results are illustrated by numerical calculations applied to Al/Al2O3 multilayers and a InSb/GaP bilayer.

Published

1995

6. Continuous probabilistic solutions to the biomagnetic inverse problem

Author

C J S Clarke, J. P. R. Bolton, and A.A. Ioannides

Subjects

Mathematical optimization, Plane (geometry), Iterative method, Applied Mathematics, Probabilistic logic, Inverse problem, Computer Science Applications, Theoretical Computer Science, Noise, Test case, Bruit, Signal Processing, medicine, Range (statistics), medicine.symptom, Algorithm, Mathematical Physics, Mathematics

Abstract

A general method for obtaining continuous solutions to the biomagnetic inverse problem is outlined and illustrated with a wide range of test cases, in a variety of experimental geometries. Magnetic sources are discussed briefly, but the main emphasis is on ionic flows, both in free space and in a homogeneous conducting sphere. The authors describe a way of obtaining depth information from measurements taken in a single plane and show how instrumental noise affects the quality of the reconstructions. An iterative scheme is introduced, capable of pinpointing a number of localised sources with a minimum of prior assumptions. However, the method is most naturally adapted to distributed sources. A number of inversions of distributed sources demonstrate that the method is powerful, accurate and convenient.

Published

1990

7. Imaging surface states in the electron microscope: a semiclassical model

Author

Lawrence Michael Brown and J. P. R. Bolton

Subjects

Physics, Brightness, Condensed matter physics, business.industry, Scattering, Semiclassical physics, Electron, law.invention, General Energy, Semiconductor, Transmission electron microscopy, law, Atomic physics, Electron microscope, business, Surface states

Abstract

A beam of electrons, grazing the surface of a semiconductor or insulator, can cause transitions between bands of localized surface states. When the scattered beam is focused in an energy-resolving transmission electron microscope, an image of the surface is obtained. This paper uses a semiclassical model to analyse inelastic electron-surface scattering and predict the brightness and shape of the surface image. The range of validity of the semiclassical model depends on the symmetries of the initial and final surface wavefunctions in a direction perpendicular to the surface.

Published

1990

8. Magnetic Field Tomography: Theoretical Basis, Performance Measures and Limitations

Author

J. P. R. Bolton, A.A. Ioannides, H. W. Müller-Gärtner, Jürgen Dammers, Lichan Liu, M.J. Liu, and P. D. Bamidis

Subjects

Basis (linear algebra), Series (mathematics), Computer science, Transputer, Emphasis (telecommunications), Inverse problem, Space (mathematics), Representation (mathematics), Algorithm, Biomagnetism

Abstract

A general method for obtaining continuous solutions to the biomagnetic inverse problem was first presented during the 1989 Biomagnetism conference. From the outset, the method was developed for three-dimensional source spaces [1, 2] but, partly to reduce computational demands and partly for ease of presentation, the first major publication of the method [3] used two-dimensional reconstructions. Soon afterwards the algorithms were ported to a transputer, making possible the analysis of large sets of MEG data. The output (estimates of the primary current density in a three-dimensional source space) was displayed by taking slices (tomes) through the source space leading to a series of MFT (Magnetic Field Tomographie) images. Later forms of representation included time integrals and activation curves, describing the evolution of activity within specified Regions of Interest (ROI). Animations run on the transputer array and recorded on video, were by far the most effective presentation tool, showing in colour-coded form the changes in the activity against a background of coregistered MRI slices[4]. Early reconstructions used averaged data but the emphasis has recently shifted to analysis of single trial or continuous data [5, 6]. Each three-dimensional study was underpinned by thorough tests with Computer generated data which, however, have been only superficially reported because of space limitations. We have previously described our philosophy and method [3], the transputer based implementation [7] and the logic in the various algorithmic steps [8]. However, the lack of published material on the background tests must be the cause of misrepresentations of MFT in some recent publications dealing with distributed source analysis, e.g. [9]. The present paper makes good this omission and uses computer-generated data to illustrate the power and limitations of MFT as a 3D imaging method, using realistic sensor configurations and signals that are neurophysiologically realistic in terms of location and temporal characteristics.

Published

2000

9. SOFIA: spatially optimal fast initial analysis of biomagnetic signals

Author

Lichan Liu, J P R Bolton, Joachim Gross, and A.A. Ioannides

Subjects

Signal processing, Brain Mapping, Radiological and Ultrasound Technology, medicine.diagnostic_test, business.industry, Computer science, Phantoms, Imaging, Fast scanning, Brain, Magnetoencephalography, Magnetics, Region of interest, medicine, Humans, Radiology, Nuclear Medicine and imaging, Computer Simulation, Artificial intelligence, Biological system, business, Algorithms

Abstract

A method of analysing biomagnetic signals is presented which focuses attention on activity in a specific region of interest. The method is based on the construction of virtual sensors, corresponding to linear combinations of lead fields that are optimally localized within the region of interest. This method is fast and stable. It is tested against physiologically plausible computer generated signals and also against more elaborate analysis of real data. The results show that the method can be very effective as a fast scanning tool identifying activity from pre-defined regions of interest.

Published

1999

10. Transverse zero sound in3He B

Author

J P R Bolton

Subjects

Physics, Transverse plane, Acoustics, Attenuation, Quantum electrodynamics, General Engineering, General Physics and Astronomy, Zero sound, Condensed Matter Physics

Abstract

The velocity and attenuation of transverse zero sound in 3He B are calculated as functions of temperature, pressure and relaxation time.

Published

1976

11. Theory of alloys: Energy-dependent potentials for real alloys

Author

P G Dawber and J P R Bolton

Subjects

Energy dependent, Materials science, Physics and Astronomy (miscellaneous), Condensed matter physics, Specific heat, Metallurgy, Alloy, Metals and Alloys, General Engineering, Binary number, Charge density, engineering.material, Condensed Matter::Materials Science, Distribution (mathematics), Electrical resistivity and conductivity, Atom, Physics::Atomic and Molecular Clusters, engineering

Abstract

The authors extend the method of energy-dependent potentials introduced by one of the authors in an earlier paper (Clark and Dawber, ibid., vol.2, p.930 (1972)) to study the properties of random binary alloys. Some of the approximations made in that paper are removed and the improved model is used to calculate not only the specific heat and resistivity, but also to study the distribution of charge density around the two types of atom in the alloy. Calculations are made on silver-gold and silver-palladium alloys.

Published

1975

12. Localised and Distributed Source Solutions for the Biomagnetic Inverse Problem II

Author

A. A. Ioannides, J. P. R. Bolton, R. Hasson, and C. J. S. Clarke

Published

1989

13. Localised and Distributed Source Solutions for the Biomagnetic Inverse Problem I

Author

R. Hasson, A.A. Ioannides, C. J. S. Clarke, and J. P. R. Bolton

Subjects

Computer science, Magnetometer, law, Principle of maximum entropy, Floating-point unit, Inversion (meteorology), Inverse problem, Distributed source, Algorithm, Magnetic dipole, Prior information, law.invention

Abstract

Until recently, equivalent current dipole sources have been used almost universally to describe the biomagnetic signals generated by ionic currents in conducting body tissues but, as the performance of multichannel systems improves, clinical applications will emerge which require PET-like pictures demonstrating increased activity (or the absence of activity) in relation to normal background levels. A vital step in this direction is the development of a reliable, efficient and mathematically well-founded method of studying continuous source densities. A number of attempts to treat biomagnetic data in a model-independent way have been reported [1,2,3,4]Starting from maximum entropy arguments [5] we have developed a very general method of inversion. In a certain limit, our method reduces to that of reference [1] but, in general, it is more powerful in its ability to take account of prior information about the source space and the noise spectrum of the magnetometers. It is implemented within a comprehensive computing environment that can deal with a wide range of experimental geometries and accommodate discrete or continuous sources, including both ionic flows and magnetic dipoles. In this paper we provide an outline of the method and computing environment and we discuss two simple examples. A more detailed description of the method will be given elsewhere, but its application to 3D inversions and the analysis of real MEG data is given in the next paper [6].

Published

1989