Jean-Michel Sallese

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Senior Scientist

jean-michel.sallese@epfl.ch +41 21 693 46 02 http://edlab.epfl.ch/

Citizenship: Italian-Swiss

EDLAB Web site

see edlab.epfl.ch for details

EPFL STI GR-SCI-IEL
ELB 234 (Bâtiment ELB)
Station 11
1015 Lausanne

+41 21 693 46 02
Office: ELB 234
EPFL > STI > IEM > GR-SCI-IEL

+41 21 693 46 02
EPFL > STI > STI-SEL > SEL-ENS

+41 21 693 46 02
EPFL > VPA-AVP-DLE > AVP-DLE-EDOC > EDMI-ENS

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Administrative data

Fields of expertise

- Modeling of field effect transistors (Multigate FETs, Junctionless FET, HEMT, Field Effect-based Biosensors).

- Modeling substrate parasitic currents in integrated circuits.

- Simulation of radiation induced soft errors in integrated circuits

- High energy particle solid-state sensors.

Mission

The mission of the Electron Device Modeling and Technology group is to develop analytical and numerical models (physics based) of emerging semiconductor devices, with particular emphasis on field effect transistor architectures.
see https://edlab.epfl.ch/

Current work

- Development of Junctionless field effect biosensors.

- EPFL- HEMT model development.

- Modeling very high frequency operation in field effect devices.

see https://edlab.epfl.ch/page-102724-en-html/

Publications

Infoscience publications

Other publications

More publications on EDLAB web page

http://edlab.epfl.ch/page-97504-en.html

Research

Current Research Activities

Teaching & PhD

Teaching

Electrical and Electronics Engineering

PhD Programs

PhD Students

Kulkarni Pranav Vivek, Macaluso Marta,

Past EPFL PhD Students

Barbut Lucian , Bronuzzi Jacopo , Devos Arnout Jan J , Gautero Luca , Gorine Georgi , Harik Louis , Jazaeri Farzan , Lo Conte Fabrizio , Mangla Anurag , Paun Maria-Alexandra , Rossi Chiara , Sriskaran Viros , Stefanucci Camillo , Sun Fengda , Termo Gennaro , Zanella Frédéric ,

Courses

Electronics I

Discover the world of electronics from the fundamental laws of linear and nonlinear discrete components. Circuits obtained with component assemblies require many modeling and analysis techniques, and verification using a simulator.

Electronics II (for IC)

Understanding functionnal blocks that require a higher level of abstraction. Realization of electronic high-level functions exploiting operational amplifiers.

Electronics

Introduction to the main electronic components. Analysis of basic circuits made of operational amplifiers. Introduction to elementary logic circuits. Principle of Analog - Digital conversion. Basics of MOSFET transistor operation.

Modelling micro-/nano- field effect electron devices

The course provides an in depth modeling of emerging field effect transistors in CMOS technologty. Starting from the basis, the course will gardually introduce essential aspects to end up with a rigorous description of key features, Nanowire FET & its application to biosensing will also be analyzed.

Physics lab IIa

This practical course provides a contact with basic physical phenomena and their applications, it should help students acquire knowledge about the methods of observation and measurement as well as data analysis and presentation.