A transmission electron microscope was used to characterize the microstructure of Te(.26)Fe(.74) and Fe films obtained by magnetron and dc diode sputtering techniques.
A system is described based on triangulation for making accurate, three dimensional coordinate measurements over size ranges appropriate for robot calibration, maintenance and diagnosis.
The electron beam parameters of an energy tunable (11-22 MeV) circular microtron accelerator are measured to be close to that required for free electron laser (FEL) operation in the far infrared.
The electrodeposition conditions that contribute to microvoid formation during isothermal aging of Pb-free solder-electrodeposited copper were evaluated in a systematic series of processing experim
Working in collaboration with engineers involved in development and reliability for both the surface mount wafer-scale integration technologies (SMT and AVP respectively), a low-cycle fatigue test
Microwave absorption is proving to be a sensitive technique for the characterization of high T sub c materials.
We have performed microwave absorption (MWA) and ferromagnetic resonance measurements (FMR) in Gd1.4Ce0.6RuSr2Cu2O10-delta polycrystalline samples between 300 and 8 K.
We have performed simultaneous measurements of microwave absorption/reflection and magneto-transport characteristics of a high-mobility two-dimensional electrons in GaAs-AlGaAs heterostructure in t
We report the first observation of the transistion between interacting and non-interacting AC conductivity sigma(omega) in a doped semiconductor in its Coulomb glass state near T = 0 K.
Advances in solid-state technology and related processing techniques in recent years make it possible to produce small size, minimum weight, low production cost circuits for communication systems.
