We show that the novel features observed in Raman experiments on optimally doped and underdoped Bi2212 compounds in B sub (1g) geometry can be explained by a strong fermionic self-energy due to the
Electronic equipment has been developed to gauge up to 16 relay contacts simultaneously as the relay operates or releases in pulsing.
We show that organic thin-film transistors have suitable properties for use in gas sensors. Such sensors possess sensitivity and reproducibility in recognizing a range of gaseous analytes.
Electronic spectroscopy has been successfully applied for the first time to a broad distribution of small neutral clusters.
The electronically induced sputtering of solid oxygen films has been measured using helium and hydrogen ions with energies from 0.3 to 3.5 MeV.
The homogeneous (single cluster) and inhomogeneous contributions to the low temperature electronic absorption spectrum of 35- 50angstroms diameter CdSe clusters are separated using transient photop
The binding energy and electronic structure of the As sub Ga -As sub i; defect pair in GaAs has been calculated using the self-consistent Greens function technique.
We report on the electronic structure, efficient carrier injection, and quantitative lasing characteristics of T-shaped GaAs/AlGaAs quantum-wire-laser diodes with parallel p- and n-doping layers gr
The energy-band structure and related electronic properties of cubic CoSi sub 2 have been calculated self-consistently with the use of the linear augmented-plane-wave method.
The discovery of high T sub c superconductivity prompted an enormous theoretical activity in trying to understand the underlying physics. The situation is, however, still rather unsettled.
