Shallow trench isolation (STI) has become the standard isolation structure for sub-micron silicon CMOS technologies.
In this tutorial, the different techniques for optical 2R/3R regeneration targeting either ultra long-haul transmission and/or terrestrial networking applications at 40 Gbit/s will be reviewed.
Low pressure organo-metallic vapor phase epitaxy (OMVPE) is the dominant technology for the fabrication of transmitters and detectors for the fiber optic communication industry.
Increasing Web traffic has led to the deployment of network intermediaries at the edges of the network.
We propose to extend the scalability of Time Sensitive industrial Networks, by partitioning them into scheduling domains, while preserving timing per domain, thanks to an optical backbone acting as
Today's mobile network architecture lacks the flexibility needed to efficiently handle the fast increasing amount of data traffic.
Factory automation is one of the most challenging use cases for 5G-and-beyond mobile networks due to strict latency, availability and reliability constraints.
This paper presents some key findings w.r.t. the Radio Resource Management (RRM) in wireless Backhaul (BH) of mmWave networks.
The enantiotropic polymorphic phase transformation of di-indenoperylene (DIP) at 403 K has been structurally characterized, using single-crystal X-ray diffraction.
We present a unified magnetic-electrical-thermal package design for a power magnetic and semiconductor manufacturing issues for use in very dense, low profile power converters.
