The use of individual molecules as functional electronic devices was proposed in 1974 and advances in the field of nanotechnology have led to various measurements of electrical properties on the mo
The use of individual molecules as functional electronic devices was proposed in 1974 and advances in the field of nanotechnology have led to various measurements of electrical properties on the mo
Inductors play a key role in wireless front-end circuitry, yet are not generally well suited for conventional RF integrated circuit fabrication processes.
Linear acenes terminated with quinones demonstrate that electrostatic complementarity is a viable self-assembly motif fir organic semiconductors.
Self-assembly of one-dimensional surface structures is examined by tracking single Ir and Pd atoms on W(110) as they incorporate into chains of Ir and Pd, respectively.
We report on the self-biasing effect of carrier-depletion based silicon microring modulators (MRM) by demonstrating that a silicon MRM can generate open eye diagrams for non-return-to-zero (NRZ) on
A novel 40-Gb/s differential quadrature phase-shift keying receiver is theoretically proposed, improving direct detection by 4.2 dB for self-phase-modulation-limited single-channel transmission, ap
This paper treats the recently emerging self-coherent multisymbol decision-feedback-aided detection techniques for optical differential phase-shift keyed (DPSK) transmission based on both an optica
Self-coherent optical transmission based on differential phase-shift keying (DPSK) and direct detection [1-4] has emerged as an attractive vehicle for supporting high-speed optical transport networ
We review self-coherent receiver schemes that enable >100 Gb/s per-wavelength transmission over ~100 km of fiber. We discuss in detail recent progress on Kramers-Kronig receivers.