Fano resonances in the excitation spectra of semiconductor
... favors narrow linewidths in the excitation spectrum by preventing the broadening from the alloy scattering. On the other hand, the double quantum-well structure allows a higher penetration of the heavy-hole wave function into the barrier resulting in a sizable oscillator strength for the hh3-cb1 tra ...
... favors narrow linewidths in the excitation spectrum by preventing the broadening from the alloy scattering. On the other hand, the double quantum-well structure allows a higher penetration of the heavy-hole wave function into the barrier resulting in a sizable oscillator strength for the hh3-cb1 tra ...
Spectral and spatial decomposition of lithospheric magnetic field models using spherical Slepian functions
... One of the early attempts at bringing spatial selectivity to spherical-harmonic-based representations involved an approach reminiscent of ‘wavelet’ analysis (Simons et al. 1997). Spatially selective windows targeting a particular spectral degree range were designed, and a space-spectral analysis con ...
... One of the early attempts at bringing spatial selectivity to spherical-harmonic-based representations involved an approach reminiscent of ‘wavelet’ analysis (Simons et al. 1997). Spatially selective windows targeting a particular spectral degree range were designed, and a space-spectral analysis con ...
Large Local-Field Corrections in Optical Rotatory Power of Quartz and...
... which indicates that the local-field correction is negative and smaller than the macroscopic response. This conclusion is in reasonable agreement with the typical 210% correction for the dielectric constant. A similar result can be obtained for the second-harmonic coefficient. ...
... which indicates that the local-field correction is negative and smaller than the macroscopic response. This conclusion is in reasonable agreement with the typical 210% correction for the dielectric constant. A similar result can be obtained for the second-harmonic coefficient. ...
Quantum Information and Quantum Computation
... Over the last half century, the components of computers have gotten smaller by a factor of two every year and a half, the phenomenon known as Moore's law. In current computers, the smallest wires and transistors are coming close to a size of one hundred nanometers across, a thousand times the diamet ...
... Over the last half century, the components of computers have gotten smaller by a factor of two every year and a half, the phenomenon known as Moore's law. In current computers, the smallest wires and transistors are coming close to a size of one hundred nanometers across, a thousand times the diamet ...
Chapter 19 Electric Charges, Forces, and Fields
... a point halfway betweenthe charges q1 and q2. (b) Is the magnitude of the electric field halfway between q2 and q3 greater than, less than or the same as the electric field found in part (a)? (c) Find the magnitude of the electric field at the point specified in part (b). ...
... a point halfway betweenthe charges q1 and q2. (b) Is the magnitude of the electric field halfway between q2 and q3 greater than, less than or the same as the electric field found in part (a)? (c) Find the magnitude of the electric field at the point specified in part (b). ...
On the correspondence principle
... function become indistinguishable. Although their work is of great interest it does concentrate on the weak form of the correspondence principle. Finally, we observe that Greenbaum et al note in their work the conditions for weak QCT may need modification for systems with more than one dimension. Ou ...
... function become indistinguishable. Although their work is of great interest it does concentrate on the weak form of the correspondence principle. Finally, we observe that Greenbaum et al note in their work the conditions for weak QCT may need modification for systems with more than one dimension. Ou ...
