Global ETD Search

171	Theoretical studies of submicron gate length high electron mobility transistors Park, Duke H. 12 1900 (has links) No description available. Electron mobility Semiconductors
172	A noninterrupting method for measuring charged particle beam currents Lineberger, William Carl 12 1900 (has links) No description available. Electron beams Hall effect
173	Inverse photoemission of graphite, sodium(110), tantalum(001), and gold/chromium Collins, I. R. January 1988 (has links) No description available. 530.41 Electron structure of graphite
174	Studies in relativistic quantum chemistry Dyer, S. January 1984 (has links) No description available. 530.1 Electron spin densities
175	Electron transfer in single crystal potassium manganate (VI,VII) and associated systems Quillin, Keith January 1988 (has links) No description available. 530.41 Electron transfer in crystals
176	In-vivo oxygen mapping using LODESR imaging Panagiotelis, Ioannis January 2001 (has links) A novel imaging modality is introduced, using Radio-Frequency Longitudinally Detected Electron Spin Resonance (RF-LODESR), capable of providing qualitative and semi-quantitative information on a variety of parameters reflecting physiological function, the most significant being tissue oxygenation. Effective spin-lattice (T<sub>1e</sub>) and spin-spin (T<sub>2e</sub>) electronic relaxation time maps of the abdomen of living 200 g rats were generated after intravenous administration of a triarylmethyl free radical (TAM). These maps were used to evaluate oxygen distribution. Differences between the liver, kidneys and bladder were noted. Conclusions were made regarding distribution, perfusion and excretion rate of the contrast medium. Ligature induced anoxia in the kidney was also visualised. LODESR involves transverse ESR irradiation with a modulated excitation and observing oscillations in the spin magnetisation parallel to the main magnetic field. The T<sub>1e</sub>* and T<sub>2e</sub>* maps were calculated from a set of LODESR signal phase images collected at different detection frequencies. Each phase image also provides qualitative information on tissue oxygen level without any further processing. Additionally, a new method is introduced for measuring T<sub>1e</sub>, valid for inhomogeneous spectra, based on measuring the spectral area as a function of detection frequency. These methods present alternatives to the conventional transverse ESR linewidth-based oximetry methods, particularly for animal whole body imaging applications. 610.28 Spin; Resonance; Electron
177	Monte Carlo study of transport in GaAs Abou El-Ela, F. M. January 1989 (has links) No description available. 530.41 Electron transport in GaAs
178	Transmission of the electron through an asymmetric Aharonov-Bohm ring Ahmadi, Aphrodite January 2003 (has links) The total transmission probability of an asymmetric Aharonov-Bohm ring with an embedded scattering center in both branches and a magnetic flux passing through its center has been investigated. The transmission is calculated from the overall scattering matrix for the ring structure determined by cascading scattering matrices without the symmetric conditions. In this model, by imposing scattering centers with different strengths to the upper and lower arms of the ring, the effects of coupling between the ring and the leads and the magnetic flux in the total transmission probability as a function of transmission phase have been observed. We find the following results from our model study: 1) in the strong coupling limit, there is no zero transmission; 2) with a constant coupling and scatterer in each branch, the transmission peaks get closer together and the transmission becomes smoother as the magnetic flux increases; and 3) in the weak coupling limit with a constant magnetic flux and elastic scattering in each arm, transmission resonances become sharper due to the localized states in the ring and the magnitude of transmission is enhanced at smaller transmission phases.For the case of a single or double barrier in one arm of the ring, the discrete energy levels of the double barrier well in one branch are controlled by the width of the well and continuous levels in the other branch are controlled by a single scattering barrier. We find a peculiar quantum transport through this system such as a symmetric Breit-Wigner (BW) and an asymmetric Fano transmission resonance. The transition from BW to Fano resonance occurs by tuning either the transmission phase of the electrons through a single barrier or the magnetic AB flux threading through the AB ring. The characteristics of the Fano line-shape resonance will be examined by the asymmetric parameter that is a measure of the degree of coupling between the discrete state and the continuum. / Department of Physics and Astronomy Electron transport. Nuclear physics.
179	Electron transport in a nanostructure containing delta impurities Kim, Jong-Lae January 1996 (has links) The electronic transport properties in low dimensional systems have several important features which have attracted a wide range of both experimental and theoretical interests. The quantum ballistic transport regime in these small systems is achieved when dimensions of systems are less than the elastic mean free path and the phase coherent length. We have studied electron transport in a nanochannel, containing repulsive delta impurities. To find the conductance, a recursive Green's function method is used. The study includes finding the transverse eigenvaiues, eigenfunctions, and computing hopping integrals to determine the Green's propagators.The effects of the number, and position of the repulsive delta impurities with various potential strengths on the conductance in a nanostructure have been presented. A FORTRAN program has been used and developed for the numerical calculations. The general practical applications for nanostructures include the ability to make electronic devices smaller, denser and operate at very low voltages. The future electronic devices will utilize the developments of conductance through components having dimensions on the nanometer scale. / Department of Physics and Astronomy Nanostructures. Electron transport. Semiconductors.
180	Transport in a nanostructure with quasiperiodically varying potential characteristics Ikeler, David S. January 1997 (has links) Multiple longitudinal potential barriers affect electron transport in a nanostructure. In addition to a symmetric, aperiodic quantum wire with five potential barriers, a quantum wire containing thirteen potential barriers was modeled based on a quasiperiodic sequence known as the Fibonacci sequence. Conductance of the wires and transmission coefficients of the corresponding one-dimensional systems were calculated and analyzed in this work.Conductance calculations were performed using a FORTRAN computer program, tbgf, which performs the tight-binding, recursive Green's function method. Also Program Tran Coeffwas developed in order to calculate one-dimensional transmission coefficients using the method known as wavefunction matching. This method matches electronic wavefunctions in neighboring regions to determine the one-dimensional transmission coefficients at the electron energy normalized to the barrier strengths. The program uses the data file generated by Program Data Input. / Department of Physics and Astronomy Nanostructures. Semiconductors. Electron transport.

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