Publications

As coherent optical communications industry moves to bitrates per carrier of 400 Gb/s and beyond, opto-electronics components with ever-increasing bandwidth and sampling rate become available.

We propose a transceiver design capable of full-field modulation and detection with only two photodiodes, two analogto- digital converters, two Mach-Zehnder modulators and two digital-to-analog con

Making a connection from a customer's telephone to any of the other fifty million telephones in the United States requires a large and complex data processing or switching system.

As discovered in the quantum Hall effect, a very effective way for strongly-repulsive electrons to minimize their potential energy is to acquire non-zero relative angular momentum.

: We experimentally compare the performance of BPSK-based dual- and single-carrier coherent solutions at 40 Gb/s over NZDSF fiber.

This contributions proposes a double ground plane coaxial resonator that allows to utilize the two ground planes.

Thanks to the large spectrum chunks available above 6-GHz bands, several centimeter-wave (cm-wave) and millimeter- wave (mm-wave) bands are being exploited for mobile communications to meet 5G high

This paper describes an original solution used to realize a C-band planar filter for a given space application.

Much efforts have been put to elaborate and im-prove different high precision measurement schemes for char-acterization of advanced photonic devices and optical fibers with increasing bandwidth req

This paper presents a new dual-frequency coaxial cavity resonator and its potential in the implementation of a new class of four port filters that provide cost and volume efficient solutions for em