Microwave and millimeter-wave losses in conventional optoelectronic devices

## Abstract We report on a multifunctional optoelectronic radio frequency attenuator for millimeter wave applications, designed in a multilayer thin‐film multichip module technology on high resistive silicon. Insertion loss of measurements and electromagnetic simulations of a coplanar waveguide lin

A recent theory on superconductor-normal metal-superconductor systems has shown that the superconducting microbrldges and point contacts may have negative differential resistance in their current-voltage characteristics. These microbridges and point contacts can act as negative resistance devices f

## Abstract Results of experiments made to characterize the electromagnetic properties of typical building materials at 5.8 and 62.4 GHz are presented and compared. Transmission and reflection coefficients were measured as functions of the angle of incidence. A multiple successive internal reflecti

## Abstract Design methodologies of CMOS transmission lines (T‐lines) and resonators at millimeter‐wave frequencies are presented. Three different T‐lines including thin film microstrip line, coplanar waveguide, coplanar waveguide with ground, are designed and fabricated in standard 0.18‐μm CMOS te

A combined electrical and large-signal time-domain optical model has been used to in¨estigate distributed microwa¨e effects along the top electrode of a mode-locked monolithic extended-ca¨ity laser structure, used to generate ultrashort pulses of less than 10 ps. It is shown that the bond-wire posit