This paper investigates the thermal and fluid dynamic characteristics due to multiple miniature axial fans with blade chord and span length scales less than 10 mm, impinging air onto finned surface
There is an expected explosion in the number of users which will be connected to future wireless networks with the continued expansion of the Internet of Things.
Novel monolithic optical receivers in 0.8-mum standard MOS technology with non-return-to-zero data rates in excess of 531 Mbit/s at 850 nm are introduced.
In recent developments in SEM instrumentation and theoretical understanding low voltage (~1KeV) SEM technique (LVSEM) is increasingly becoming a powerful tool to image dopant profiles in semiconduc
We present experimental investigations and develop a strategy to control mode-locking-instabilities of an edge emitting two-section monolithic tapered quantum-dot laser.
Microluminescence (ML) technique has been used to investigate photon and photocarrier diffusion in a nominally undoped InGaAs bulk layer lattice matched to InP grown by Vapor Leviation Epitaxy (VLE
Waveguides engraved in InP by dry etching, reactive ion etching and inductively coupled plasma (ICP), were studied by cathodoluminescence.
We have used multi-longitudinal mode lasers to investigate the ploarization properties of long lengths of single mode fiber cable.
This paper compares three candidate large-scale propagation path loss models for use over the entire microwave and millimeter-wave (mmWave) radio spectrum: the alpha-beta-gamma (ABG) model, the clo
The Electromagnetic Interference (EMI) from multi-layer Printed Wiring Board (PWB) was investigated by Finite-Difference Time-Domain (FDTD) modeling.