Publications

5G technology brings significant potential for enabling port automation, leading to improved flexibility, predictability, and safety in ports.

Autocorrelation of 1.5 microns light using two-photon absorption in a photon-counting silicon avalanche photodiode (APD) is demonstrated.

1.5 mum two-photon absorption in a single photon counting silicon avalanche photodiode at record continuous-wave levels below 100 muW is reported. Autocorrelation of a 10 GHz.

Optical sampling is achieved using an all-optical linear technique with a record sensitivity of 10-3 mW2, 1000 times better than nonlinear techniques.

W I T H the extension of the radio frequency spectrum to higher and higher frequencies have come new problems, both of experiment and of theory, which require quantitative study for solution.

' I ^ H I S paper is a sequel to an earlier paper, "Ultra-Short-Wave Propagation," 1 which dealt mainly with transmission across open country.

I N an earlier paper experimental data were presented which indicated that the transmission of ultra-short-wave signals was dependent upon the state of the atmosphere, in particular upon its water

Epitaxial growth of ordered, single-crystalline superlattices is often limited by the lattice mismatch between the constituent elements or alloys.

(PREVIOUS TITLE: Ultra-Thin Oxide Reliability Projections and Alternate Dielectrics) We describe the reliability projection methods currently used and show that 1.6nm oxides have sufficient reliab

We describe the reliability projection methods currently used and show that 1.6 nm oxides are sufficiently reliable even if soft breakdown is considered the point of failure.