Tobias Kippenberg
EPFL STI IEL LPQM2
PH D3 355 (Bâtiment PH)
Station 3
1015 Lausanne
+41 21 693 44 28
+41 21 693 44 52
Office:
PH D3 355
EPFL › STI › IEM › LPQM2
Site web: https://k-lab.epfl.ch/
EPFL SB IPHYS LPQM1
PH D3 355 (Bâtiment PH)
Station 3
1015 Lausanne
+41 21 693 44 28
+41 21 693 44 52
Office:
PH D3 355
EPFL › SB › IPHYS › LPQM1
Site web: https://k-lab.epfl.ch/
+41 21 693 44 28
Office:
PH D3 355
EPFL › SB › SB-SPH › SPH-ENS
Site web: https://sph.epfl.ch/
+41 21 693 44 28
Office:
PH D3 355
EPFL › VPA › VPA-AVP-CP › CMI › CMI-CD
Formation
2009 – 2009
LMU
Dirigée par
T.W. Haensch
2004 – 2004
California Institute of Technology
Dirigée par
Kerry J. Vahala
2000 – 2000 California Institute of Technology
1998 – 1998 Technical University of Aachen (RWTH), Germany
1998 – 1998 Technical University of Aachen (RWTH), Germany
Expériences professionnelles
Prix et distinctions
1996
2009
European Physical Society
2009
European Frequency and Time Forum
2011
International Commission for Optics
2013
2021
2018
2015
Latsis foundation
2014
Swiss Academy of Engineering Sciences
2023
United States National Academy of Engineering
2024
German National Academy of Sciences Leopoldina
2024
Publications représentatives
Cavity Optomechanics: Back-Action at the Mesoscale
T.J. Kippenberg and K.J. Vahala
Published in Science 321, 1172 (2008) in
Resolved Sideband Cooling of a Micromechanical Oscillator
A. Schlie�er, R. Rivi�re, G. Anetsberger, O. Arcizet, and T.J. Kippenberg
Published in Nature Physics 4, 415 (2008) in
Optical frequency comb generation from a monolithic microresonator
P. Del'Haye, A. Schlie�er, O. Arcizet, T. Wilken, R. Holzwarth, and T.J. Kippenberg
Published in Nature 450, 1214 (2007) in
Theory of ground state cooling of a mechanical oscillator using dynamical back-action
Wilson-Rae, N. Nooshi, W. Zwerger and T.J. Kippenberg
Published in Physical Review Letters 99, 093901 (2007) in
Radiation pressure cooling of a micromechanical oscillator using dynamical backaction
A. Schlie�er, P. Del'Haye, N. Nooshi, K. J. Vahala and T. J. Kippenberg
Published in Physical Review Letters 97, 243905 (2006) in
Optomechanically induced transparency
Weis, S. et al.
Published in Science 330, 1520-1523, (2010). in
Quantum-coherent coupling of a mechanical oscillator to an optical cavity mode
Verhagen, E., Deleglise, S., Weis, S., Schliesser, A. & Kippenberg, T. J.
Published in Nature 482, 63-67, (2012) in
Cavity optomechanics
Aspelmeyer, M., Kippenberg, T. J. & Marquardt
Published in Reviews of Modern Physics (2014) in
Measurement and control of a mechanical oscillator at its thermal decoherence rate
Wilson, D. J. et al.
Published in Nature (2015) in
Photonic chip-based optical frequency comb using soliton Cherenkov radiation.
V. Brasch, M. Geiselmann, T. Herr, G. Lihachev, M. H. P. Pfeiffer, M. L. Gorodetsky and T. J. Kippenberg.
Published in Science, vol. 351, num. 6271, p. 357-360, 2015. in
Enseignement et PhD
Doctorant·es actuel·les
Mengxin Lin, Xinru Ji, Shuhang Zheng, Junyin Zhang, Zhuoya Yuan, Evgenii Guzovskii, Mahdi Chegnizadeh, Jiale Sun, Shivaprasad Umesh Hulyal, Xiaoyi Cheng, Hao Li, Nikolai Kuznetsov, Zheru Qiu, Alessio Zicoschi, Jiahe Pan, Mikael Sebastian Reichler, Xuxin Wang, Donato Manuel Jiménez Benetó, Xuan Yang, Hugo Paul Arbez, Amirali Arabmoheghi, Viacheslav Snigirev, Alisa Davydova, Zihan Li
A dirigé les thèses EPFL de
Stefan Weis, Emanuel Gavartin, Xiaoqing Zhou, Tobias Herr, Vivishek Sudhir, Victor Brasch, Hendrik Schütz, Martin Hubert Peter Pfeiffer, Amir Hossein Ghadimi, Ryan Daniel Schilling, László Dániel Tóth, Nathan Rafaël Bernier, Erwan Guillaume Albert Lucas, Clément Christian Javerzac-Galy, Katharina Schmeing, Philippe Andreas Rölli, Liu Qiu, Maxim Karpov, Junqiu Liu, Sergey Fedorov, Simon Benjamin Klaus Hönl, Mohammad Bereyhi, Miles Anderson, Arslan Sajid Raja, Anton Lukashchuk, Alberto Beccari, Amir Youssefi, Guanhao Huang, Alberto Nardi, Mikhail Churaev, Aleksandr Tusnin, Riedhauser Annina Irina, Anat Siddharth, Terence Blésin
Cours
Quantum electrodynamics and quantum optics
PHYS-453
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.
Statistical physics IV
PHYS-436
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.