European Master in Nuclear Energy (EMINE). When academy and industry meet

EMINE master programme is an international education initiative offered by KIC-InnoEnergy under the framework of the European Institute of Innovation and Technology (EIT). Students in the programme have the opportunity to acquire an in-depth knowledge of the nuclear industry, through unique and specialised courses covering a wide range of subjects. Students choose between UPC (Barcelona) and KTH (Stockholm) for the first year and between Grenoble-INP and Paris-Saclay University (France) for the second year. Grenoble École de Management (GEM) completes the list of academic partners: students take a 3-week summer course on energy management issues after their first year in EMINE. EMINE students also benefit from the involvement of our industrial partners (AREVA, EDF, ENDESA, INSTN-CEA, and Vattenfall) in the Programme. For the academic institutions, EMINE is the opportunity to provide a high level education aligned with the industrial needs. The international collaboration among universities helps improving the quality and the adoption of best practices. EMINE attracts good students to our centres whereas the EIT funding and the industrial involvement allows a number of activities that otherwise would have been difficult to carry out, such as the assistance of external industrial experts or field activities. MSc EMINE helps tomorrow’s nuclear engineers take up the challenges the nuclear energy industry faces in terms of safety, social acceptability and waste management. By offering outstanding technical training and addressing the economic, social and political aspects of nuclear energy, the programme broadens the scope of traditional nuclear education.Postprint (published version

"Photonic mixers in MMW to THz range for wide band communications"

International audienc

"Photonic mixers in MMW to THz range for wide band communications"

International audienc

Impact of Phase Noise in 60-GHz Radio-Over-Fiber Communication System Based on Passively Mode-Locked Laser

International audienc

Génération de signaux sub-terahertz par diodes laser à verrouillage de modes pour applications système

International audienc

European Master in Nuclear Energy (EMINE). When academy and industry meet

EMINE master programme is an international education initiative offered by KIC-InnoEnergy under the framework of the European Institute of Innovation and Technology (EIT). Students in the programme have the opportunity to acquire an in-depth knowledge of the nuclear industry, through unique and specialised courses covering a wide range of subjects. Students choose between UPC (Barcelona) and KTH (Stockholm) for the first year and between Grenoble-INP and Paris-Saclay University (France) for the second year. Grenoble École de Management (GEM) completes the list of academic partners: students take a 3-week summer course on energy management issues after their first year in EMINE. EMINE students also benefit from the involvement of our industrial partners (AREVA, EDF, ENDESA, INSTN-CEA, and Vattenfall) in the Programme. For the academic institutions, EMINE is the opportunity to provide a high level education aligned with the industrial needs. The international collaboration among universities helps improving the quality and the adoption of best practices. EMINE attracts good students to our centres whereas the EIT funding and the industrial involvement allows a number of activities that otherwise would have been difficult to carry out, such as the assistance of external industrial experts or field activities. MSc EMINE helps tomorrow’s nuclear engineers take up the challenges the nuclear energy industry faces in terms of safety, social acceptability and waste management. By offering outstanding technical training and addressing the economic, social and political aspects of nuclear energy, the programme broadens the scope of traditional nuclear education

Fiber Propagation-Induced Mode Partition Noise in Millimeter-Wave Radio-Over-Fiber Systems

International audienc

Asymmetric Millimeter-Wave Spectrum in Laser Mode Partition Noise Generated by Fiber Transmission

International audienc

All optical signal processing for conversion of the subcarriers of BPSK and QPSK digital signals

A passive integrated unbalanced Mach Zehnder interferometer (UMZ) used in a frequency modulated fiber-optic link converts the microwave subcarrier frequencies of digital signals. As expected in theory, Bit Error Rate (BER) measurements for BPSK modulation format show better results using UMZ than for classical optical microwave mixing method using an active external optical modulator. Using the UMZ, conversions of microwave subcarrier of digital signals are reached for data rate of 500 Mbit/s. Measurements with QPSK modulation format show low BER and no IQ imbalance in the constellation diagram at 100 Mbit/s

Sideband stabilization in the presence of LO phase noise: analysis and system demonstrator

International audienceWe present a technique allowing the stabilization and tuning of a modulation sideband in the presence of high carrier frequency jitter and increased carrier phase noise. This technique is of particular interest in communication systems where oscillators providing the carrier signal cannot be stabilized by a conventional phase-locked loop, such as systems relying on low-cost optical LO generation techniques. The results obtained in simulation are validated by measurements carried out on a modular system demonstrator. Index Terms-frequency jitter, phase noise, phase-locked loop, radio-over-fiber systems, mode-locked lasers