Publications

This field trial transmits 1.5Tb/s superchannel with 5b/s/Hz spectral efficiency over 875km of EDFA-amplified SMF, using six 250Gb/s real time elastic transponders featuring 1dB minimum Q margin ov

Optical networks are evolving toward self-adaptation exploiting self-observation of network conditions (e.g., through monitoring at the physical layer).

Multi-cell MIMO technique theoretically promises large improvement in spectral efficiency and fairness in cellular networks and is regarded as the key enabling technique for solving the troublesome

Substantial field-dependent microwave absorption is found in superconducting materials of the YBa sub 2 Cu sub 3 O sub 7 class.

Field-effect transistors based on two-component self-assembled monolayers of conjugated and insulating molecules were prepared; the conductance through them can be varied by more than three orders

Rubrene single crystals have been grown by a vapor phase process. Two additional molecules, which contaminate rubrene have been identified and their structures determined.

Several new p-type semiconducting materials with lower electron-donating ability than the parent sexithiophene were synthesized and their thermal, morphological, and FET properties were investigate

We report properties of devices made by the adhesion of semiconductor crystals, including several tetracene specimens, to polymer gate dielectrics along with measurements of tetracene crystals on c

The application of an electric field along the b axis of K sub (0.30) MoO sub 3 in the charge-density-wave (CDW) state causes a metastable loss of transverse order as measured by x-ray diffraction.

We report on the modulation of the transport properties of thin films, grown by molecular beam epitaxy, of the spin-ladder compound {[}CaCu2O3](4), using the field effect in a gated structure.