A high-sensitivity ac calorimeter system has been developed to investigate the temperature variation of the heat capacity from free-standing liquid-crystal films.
The heat evolution of stress-induced structural disorder, DeltaH(s)(epsilon), of a Zr55Al10Ni5Cu30 bulk metallic glass (BMG) during compressive constant ram-velocity deformation at the glass transi
The polar optical scattering of electrons and holes is studied by picosecond luminescence in a GaAs/Al sub x Ga sub (1-x) As heterostructure and in 5 and 13 nm thick GaAs/Al sub x Ga sub (1-x) As q
Heating of heavy ions is studied analytically and by means of numerical simulations in the presence of a large amplitude hydrogen cyclotron wave which is commonly observed on auroral field lines.
A theory of the heating is presented. The electrical problem of losses in the cable is considered, and then the thermal problem.
We consider a system of three parallel queues with Poisson arrivals and exponentially distributed service requirements.
High-performance device structures in the InP-InGaAs materials system, such as injection lasers and heterojunction bipolar transistors, commonly require that highly doped, high conductivity layers
Heavily doped n-type InP and InGaAs epitaxial layers have been grown by Metalorganic Chemical Vapor Deposition (MOCVD) at atmospheric pressure using tetraethyltin (TESn) as a dopant source.
Experiments are discussed which shed light on the physics of a Kondo lattice, the interactions likely to mediate superconductivity, and the unconventional superconducting state.
Heaviness in Cerium and Uranium intermetallic compounds is known to arise from the overlap of f orbitals with the conduction band.
