Tobias Kippenberg

EPFL SB IPHYS LPQM1
PH D3 355 (Bâtiment PH)
Station 3
1015 Lausanne

Web site:   Site web:   https://k-lab.epfl.ch/

EPFL STI IEL LPQM2
PH D3 355 (Bâtiment PH)
Station 3
1015 Lausanne

Web site:   Site web:   https://k-lab.epfl.ch/

Web site:   Site web:   https://sph.epfl.ch/

vCard
Données administratives


Formation

Habilitation

Quantum Optics

LMU

2009

Doctor of Philosophy

California Institute of Technology

2004

Master of Science

California Institute of Technology

2000

B.A.

Physics

Technical University of Aachen (RWTH), Germany

1998

B.A.

Electrical Engineering

Technical University of Aachen (RWTH), Germany

1998


Récompenses

2024 : Member of German National Academy of Sciences Leopoldina : German National Academy of Sciences Leopoldina

2024 : International Member United States National Academy of Engineering (NAE) : United States National Academy of Engineering

2023 : Membership to Swiss Academy of Engineering Sciences (SATW) : Swiss Academy of Engineering Sciences

2014 : Swiss National Latsis Prize : Latsis foundation

2013 : International Commission for Optics (ICO) prize : International Commission for Optics

2011 : EFTF Young Scientist Award : European Frequency and Time Forum

2009 : Helmholtz Prize for Metrology

2009 : Fresnel Prize : European Physical Society

1996 : 1st Physics Prize at the German National Science Contest

Publications

Publications Infoscience

Sélection de publications

Enseignement & Phd

Enseignement

Physics

Electrical and Electronics Engineering
Microengineering

Cours

Lasers: theory and modern applications

Although the basic principles of lasers have remained unchanged in the past 50 years, there has been a significant shift in the kinds of lasers generating interest. Providing a comprehensive introduction to the operating principles and applications of lasers, this course reviews latest developments.

Statistical physics IV

Les fluctuations et le bruit sont des concepts clés en science et technologie. Ce cours explore les méthodes stochastiques appliquées aux systèmes classiques et quantiques, incluant théorèmes fluctuation-dissipation, équations différentielles stochastiques et processus de Markov.

Quantum electrodynamics and quantum optics

Ce cours développe d'une part la théorie quantique du rayonnement électromagnétique à partir de l'électrodynamique quantique. D'autre part il explore les conséquences principales de l'interaction rayonnement-matière dans des applications comme les spectroscopies et dispositifs optiques.