Publications

STM has successfully revealed the structure of semiconductor and graphite surfaces with atomic resolution.

The reconstruction of metal surfaces, Au(100-(1x5), Au(110)- (2x1), Ni(110)-(5x2), and Ni(110)-Au(7x4) have been studied with scanning tunneling microscopy.

The reconstruction of metal surfaces, Au (100)-(1x5) and Ni (110)-Au (7x4), have been studied with scanning tunneling microscopy (STM).

The reconstruction of metal surfaces, Au(100-(1x5), Au(110)- (2x1), Ni(110)-(5x2), and Ni(110)-Au(7x4) have been studied with scanning tunneling microscopy.

The reconstruction of metal surfaces, Au(100-(1x5), Au(110)- (2x1), Ni(110)-(5x2), and Ni(110)-Au(7x4) have been studied with scanning tunneling microscopy.

The reconstruction of metal surfaces, Au(100-(1x5), Au(110)- (2x1), Ni(110)-(5x2), and Ni(110)-Au(7x4) have been studied with scanning tunneling microscopy.

Multicarrier Offset QAM is studied as a spectrally efficient modulation scheme for high-speed coherent optical communication systems.

The ultraviolet photoelectron spectrum of naphtho [1,8-cd; 4,5-c'd']bis [1,2,6]thiadiazine, (NSN-2), is compared with published X-ray photoelectron spectroscopy and ab initio quantum mechanical re

The results of background measurements with the prototype of the Borexino detector (CTF) have been used to obtain an upper bound on the neutrino magnetic moment, mu(nu).

This paper reports on timing-jitter analysis of an all-optical clock-recovery scheme at 40 GHz using self-pulsating (SP) lasers.