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Marc Cheneau

Marc Cheneau

Poste

Chargé de recherche CNRS

Projets de recherche

Dynamique quantique, Optique atomique quantique

Coordonnées

Bureau : pièce R2.25 – tél. +33 1 64 53 33 39
Labo : pièce R0.L5.D – tél. +33 1 64 53 33 61
Courriel : marc.cheneau (at) institutoptique.fr

CV court

  • 2013 - : chargé de recherche au laboratoire Charles Fabry ;
  • 2009 - 2012 : stage post-doctoral à l'institut Max Planck pour l'optique quantique dans le département « systèmes à N corps quantiques » dirigé par Immanuel Bloch ;
  • 2005 - 2009 : thèse de doctorat au laboratoire Kastler Brossel sous la direction de Jean Dalibard (manuscrit) ;
  • 2004 - 2005 : master de physique quantique de l'université Pierre et Marie Curie et de l'École Normale Supérieure de la rue d'Ulm ;
  • 2004 : agrégation de physique-chimie, option physique ;
  • 2001 - 2004 : élève de l'École Normale Supérieure de Cachan.

Publications

[24] P. Dussarrat, M. Perrier, A. Imanaliev, R. Lopes, A. Aspect, M. Cheneau, D. Boiron & C. I. Westbrook, Two-Particle Four-Mode Interferometer for Atoms, Physical Review Letters 119, 173202 (2017)

[23] S. van Frank , M. Bonneau, J. Schmiedmayer, S. Hild, C. Gross, M. Cheneau, I. Bloch, T. Pichler, A. Negretti, T. Calarco & S. Montangero, Optimal control of complex atomic quantum systems , Scientific reports 6, 34187 (2016)

[22] R. Lopes, A. Imanaliev, A. Aspect, M. Cheneau, D. Boiron & C. I. Westbrook, Atomic Hong-Ou-Mandel experiment, Nature 520, 66–68 (2015)

[21] P. Schauß, J. Zeiher, T. Fukuhara, S. Hild, M. Cheneau, T. Macrì, T. Pohl, I. Bloch & C. Gross, Crystallization in Ising quantum magnets, Science 347, 1455–1458 (2015)

[20] R. Lopes, A. Imanaliev, M. Bonneau, J. Ruaudel, M. Cheneau, D. Boiron & C. I. Westbrook, Second-order coherence of superradiance from a Bose-Einstein condensate, Physical Review A 90, 013615 (2014)

[19] M. Endres, M. Cheneau, T. Fukuhara, C. Weitenberg, P. Schauß, C. Gross, L. Mazza, M. C. Bañuls, L. Pollet, I. Bloch & S. Kuhr, Single-site- and single-atom-resolved measurement of correlation functions, Applied Physics B 113, 27–39 (2013)

[18] M. Cheneau, Quantum gases: Relaxation dynamics, Nature Physics 9, 607–608 (News and Views, 2013)

[17] T. Fukuhara, P. Schauß, M. Endres, S. Hild, M. Cheneau, I. Bloch & C. Gross, Microscopic observation of magnon bound states and their dynamics, Nature 502, 76–79 (2013)

[16] T. Fukuhara, A. Kantian, M. Endres, M. Cheneau, P. Schauß, S. Hild, D. Bellem, U. Schollwöck, T. Giamarchi, C. Gross, I. Bloch & S. Kuhr, Quantum dynamics of a mobile spin impurity, Nature Physics 9, 235–241 (2013)

[15] P. Schauß, M. Cheneau, M. Endres, T. Fukuhara, S. Hild, A. Omran, T. Pohl, C. Gross, S. Kuhr & I. Bloch, Observation of spatially ordered structures in a two-dimensional Rydberg gas, Nature 491, 87–91 (2012)

[14] M. Endres, T. Fukuhara, D. Pekker, M. Cheneau, P. Schauß, C. Gross, E. Demler, S. Kuhr & I. Bloch, The ‘Higgs’ amplitude mode at the two-dimensional superfluid/Mott insulator transition, Nature 487, 454–458 (2012)

[13] P. Barmettler, D. Poletti, M. Cheneau & C. Kollath, Propagation front of correlations in an interacting Bose gas, Physical Review A 85, 053625 (2012)

[12] M. Cheneau, P. Barmettler, D. Poletti, M. Endres, P. Schauß, T. Fukuhara, C. Gross, I. Bloch, C. Kollath & S. Kuhr, Light-cone-like spreading of correlations in a quantum many-body system, Nature 481, 484–487 (2012)

[11] M. Endres, M. Cheneau, T. Fukuhara, C. Weitenberg, P. Schauß, C. Gross, L. Mazza, M. C. Bañuls, L. Pollet, I. Bloch & S. Kuhr, Observation of Correlated Particle-Hole Pairs and String Order in Low-Dimensional Mott Insulators, Science 334, 200–203 (2011)

[10] C. Weitenberg, P. Schauß, T. Fukuhara, M. Cheneau, M. Endres, I. Bloch & S. Kuhr, Coherent light scattering from a two-dimensional Mott insulator, Physical Review Letters 106, 215301 (2011)

[9] C. Weitenberg, M. Endres, J. F. Sherson, M. Cheneau, P. Schauß, T. Fukuhara, I. Bloch & S. Kuhr, Single-spin addressing in an atomic Mott insulator, Nature 471, 319–324 (2011)

[8] J. F. Sherson, C. Weitenberg, M. Endres, M. Cheneau, I. Bloch & S. Kuhr, Single-atom resolved fluorescence imaging of an atomic Mott insulator, Nature 467, 68–72 (2010)

[7] S. P. Rath, T. Yefsah, K. J. Günter, M. Cheneau, R. Desbuquois, M. Holzmann, W. Krauth & J. Dalibard, The equilibrium state of a trapped two-dimensional Bose gas, Physical Review A 82, 013609 (2010)

[6] K. J. Günter, M. Cheneau, T. Yefsah, S. P. Rath & J. Dalibard, A practical scheme for a light-induced gauge field in an atomic Bose gas, Physical Review A 79, 011604(R) (2009)

[5] M. Cheneau, S. P. Rath, T. Yefsah, K. Günter, G. Juzeliūnas & J. Dalibard, Geometric potentials in quantum optics: A semi-classical interpretation, Europhysics Letters 83, 60001 (2008)

[4] Z. Hadzibabic, P. Krüger, M. Cheneau, S. P. Rath & J. Dalibard, The trapped two-dimensional Bose gas: from Bose–Einstein condensation to Berezinskii-Kosterlitz-Thouless physics, New Journal of Physics 10, 045006 (2008)

[3] Z. Hadzibabic, P. Krüger, M. Cheneau, B. Battelier & J. Dalibard, The atomic Bose gas in Flatland, AIP Conference Proceedings 869, 155–164 (2006)

[2] Z. Hadzibabic, P. Krüger, M. Cheneau, B. Battelier & J. Dalibard, Berezinskii–Kosterlitz–Thouless crossover in a trapped atomic gas, Nature 441, 1118–1121 (2006)

[1] S. Stock, Z. Hadzibabic, B. Battelier, M. Cheneau & J. Dalibard, Observation of Phase Defects in Quasi-Two-Dimensional Bose–Einstein Condensates, Physical Review Letters 95, 190403 (2005)

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