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Hi !
I am a CNRS researcher in the Condensed Matter Theory group at LOMA, University of Bordeaux.
Curriculum Vitae
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Employment history
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CNRS researcher
Laboratoire Ondes et Matière d’Aquitaine
Université de Bordeaux, France
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Postdoc with F. Pistolesi
Laboratoire Ondes et Matière d’Aquitaine
Université de Bordeaux, France
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Postdoc with P. Delplace
Laboratoire de Physique
Ecole Normale Supérieure de Lyon, France
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Postdoc with M. I. Katsnelson
Institute for Molecules and Materials
Radboud University, The Netherlands
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Ph.D. under the supervisions of C. Bena and G. Montambaux
Institut de Physique Théorique, Cea Saclay, France
Laboratoire de Physique des Solides, Université Paris-Sud, France
Teaching & mentoring
Co-supervision of Hari Razanajatovo, PhD student in TCM group (since Dec. 2023)
Impurity scattering in topological materials
Co-supervision of Guillaume Bertel, PhD student in QUATEMS group (since Sep. 2022)
Electro-nanomechanics with quantum two-level systems
Co-supervision of Jonathan Wise, Postdoc in QUATEMS group (since Mar. 2022)
Nonlinear cavity optomechanics
Supervision of Guillaume Guilluy, Bachelor student @ Bordeaux University, France (2022)
Introduction to classical anharmonic oscillators
Supervision of Anthony David, master student @ Bordeaux University, France (2018)
Topological energy transfer between two nano-mechanical modes
Supervision of Ozair Saeed, master student @ Utrecht University, The Netherlands (2016)
Quasiparticle interferences in Bernal trilayer graphene
Teaching assistant @ University Paris Sud, France (2011-2014)
Mathematics Applied to Economics with Prof. Odile Brandière — 192 hours
Fundings
Impurity scattering in topological materials
Principal Investigator
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Individual Molecules as efficient mOtion detectOrs and actuators of Nano-oscillators
Partner (Principal investigator B. Lounis, LP2N)
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Controlling Dynamical Symmetries in Quantum Materials using Tailored Light
Co-Principal Investigator (with S. Beaulieu, CELIA)
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Publications
Preprints
22. arXiv:2311.14572
J. L. Wise, C. Dutreix, and F. Pistolesi
Nonclassical mechanical states in cavity optomechanics in the strong coupling regime
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Publications
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21. Nature Communications 15, 2927 (2024) [arXiv]
Y. Guan, C. Dutreix, H. Gonzales-Herrero, M. M. Ugeda, I. Brihuega, M. I. Katsnelson, O. V. Yazyev, and V. T. Renard, Observation of Kekulé vortices around hydrogen adatoms in graphene
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20. Physical Review B 108, 205156 (2023) [arXiv]
E. Linnér, C. Dutreix, S. Biermann, and E. A. Stepanov
Coexistence of s-wave superconductivity and phase separation in the half-filled extended Hubbard model
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19. Physical Review Research 4, 013169 (2022) [arXiv]
J. Luneau, C. Dutreix, Q. Ficheux, P. Delplace, B. Douçot, B. Huard, and D. Carpentier
Topological power pumping in quantum circuits
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18. Comptes Rendus. Physique, Académie des sciences, Paris (2021)
C. Dutreix, H. González-Herrero, I. Brihuega, M. I. Katsnelson, C. Chapelier, and V. T. Renard
Measuring graphene Berry phase at B = 0 T
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17. Nature Communications 12, 3571 (2021) [arXiv]
C. Dutreix, M. Bellec, P. Delplace, and F. Mortessagne
Wavefront dislocations reveal the topology of quasi-1D photonic insulators
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16. Physical Review B (Rapid Com.) 102, 220301 (2020) [arXiv]
V. N. Valmispild, C. Dutreix, M. Eckstein, M. I. Katsnelson, A. I. Lichtenstein, and E. A. Stepanov
Dynamically induced doublon repulsion in the Fermi-Hubbard model
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15. Physical Review Research 2, 023268 (2020) [arXiv]
C. Dutreix, R. Avriller, B. Lounis, and F. Pistolesi
Two-level system as topological actuator for nanomechanical modes
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14. Nature 574, 219–222 (2019) [arXiv]
C. Dutreix, H. González-Herrero, I. Brihuega, M. I. Katsnelson, C. Chapelier, and V. T. Renard
Measuring the Berry phase of graphene from wavefront dislocations in Friedel oscillations
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13. J. Phys.: Condens. Matter (Letter) 31, 17LT01 (2019) [arXiv]
E. A. Stepanov, S. A. Nikolaev, C. Dutreix, M. I. Katsnelson, and V. V. Mazurenko
Heisenberg-exchange-free nanoskyrmion mosaic
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12. New Journal of Physics 20, 013014 (2018) [arXiv]
D. Chevallier, M. Trif, C. Dutreix, M. Guigou, C. H. L. Quay, M. Aprili, and C. Bena
Superconductor spintronics: Modeling spin and charge accumulation in out-of-equilibrium NS junctions
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11. Physical Review B 96, 195207 (2017) [arXiv]
C. Dutreix and P. Delplace
Geometrical phase shift in Friedel oscillations
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10. Physical Review B 96, 045416 (2017) [arXiv]
C. Dutreix
Topological spin-singlet superconductors with underlying sublattice structure
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9. Physical Review Letters 118, 157201 (2017) [arXiv]
E. A. Stepanov, C. Dutreix, and M. I. Katsnelson
Dynamical and reversible control of topological spin textures
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8. Physical Review B 96, 184516 (2017) [arXiv]
N. Sedlmayr, V. Kaladzhyan, C. Dutreix, and C. Bena
On the bulk boundary correspondence and the existence of Majorana states in 2D topological superconductors
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7. Physical Review B 95, 024306 (2017) [arXiv]
C. Dutreix and M. I. Katsnelson
Dynamical control of electron-phonon interactions with high-frequency light
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6. Physical Review B (Rapid Com.) 93, 241404 (2016) [arXiv]
C. Dutreix, E. A. Stepanov, and M. I. Katsnelson
Laser-induced topological transitions in phosphorene with inversion symmetry
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5. Physical Review B (Rapid Com.) 93, 220501 (2016) [arXiv]
C. H. L. Quay, C. Dutreix, D. Chevallier, C. Bena, and M. Aprili
Frequency-Domain Measurement of the Spin Imbalance Lifetime in Superconductors
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4. Physical Review B 93, 035413 (2016) [arXiv]
C. Dutreix and M. I. Katsnelson
Friedel oscillations at the surfaces of rhombohedral N-layer graphene
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3. The European Physical Journal B 87, 296 (2014) [arXiv]
C. Dutreix, M. Guigou, D. Chevallier, and C. Bena
Majorana fermions in honeycomb lattices
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2. Physical Review B 87, 245413 (2013) [arXiv]
C. Dutreix, L. Bilteanu, A. Jagannathan, and C. Bena
Friedel oscillations at the Dirac-cone-merging point in anisotropic graphene
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1. The European Physical Journal B 86, 240 (2013) [arXiv]
L. Bilteanu, C. Dutreix, A. Jagannathan, and C. Bena
Interplay between edge states and simple bulk defects in graphene nanoribbons
Ph.D. Thesis
Impurity and boundary modes in the honeycomb lattice
Laboratoire de Physique des Solides, Université Paris-Sud (Oct. 2011 – Sep. 2014)
Talks & Events
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Contributions
Oct. 2022 | Bordeaux
7th annual meeting of the GDR MecaQ
Nanomechanical steady-state squeezing with an optical two-level system
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Aug. 2022 | Lyon
Journées de la Matière Condensée 2022 (MC30)
Imaging the bulk-boundary correspondence in 1D insulators
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Jun. 2022 | Bordeaux
LOMA Theory Day
Searching for topological materials without Hamiltonians
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Dec. 2021 | Grenoble
Laboratoire PHELIQS, CEA Grenoble
Introduction to Topological Quantum Chemistry
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Dec. 2021 | Grenoble
Questions de Physique, colloquium of the Alpes French Physical Society
Cycling with a quantum geometrician: Berry’s phase
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Dec. 2021 | Aussois
Plenary session of the GDR Quantum Mesoscopic Physics
Wavefront dislocations reveal the band topology of 1D insulators
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Jan. 2021 | Online
International Workshop Frontiers of Nanomechanical Systems
Two-level system as topological actuator for nanomechanical modes
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Jan. 2021 | Online
Laboratoire de Physique Théorique de la Matière Condensée, Sorbonne
Wavefront dislocations reveal the nontrivial bulk of topological systems
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Jan. 2021 | Online
Institut des Nanosciences de Paris, Sorbonne University
Wavefront dislocations reveal the nontrivial bulk of topological systems
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Nov. 2020 | Online
Laboratoire de Physique des Solides, Paris-Saclay University
Wavefront dislocations reveal the nontrivial bulk of topological systems
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Feb. 2020 | Bordeaux
Yearly workshop Quantum Matter Bordeaux
Visualizing topological quantum matter with a STM
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Jan. 2020 | Grenoble
Questions de Physique, colloquium of the Alpes French Physical Society
Introduction à la phase de Berry (annulé)
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Jan. 2020 | Villard de
Lavoisier Discussion of GDR PULSE and GDR-I
A hydrogen atom reveals the Berry phase of graphene
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Dec. 2019 | Aussois
Plenary session of the GDR Quantum Mesoscopic Physics
A hydrogen atom reveals the Berry phase of graphene
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Sep. 2019 | Grenoble
2Dseminars@Grenoble, CEA Grenoble
Measuring graphene’s Berry phase from wavefront dislocations in Friedel oscillations
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Jul. 2019 | Nijmegen
Institute for Molecules and Materials, Radboud University
Band-structure topology from wavefront dislocations in Friedel oscillations
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Jun. 2019 | Munich
European Quantum Electronics Conference
Wavefront dislocation as real-space measurement of the Zak phase in 1D photonic topological insulators
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Dec. 2018 | Aussois
Plenary session of the GDR Quantum Mesoscopic Physics
Topological and non-reciprocal transfer of electromechanical modes via quantum-noise engineering
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Sep. 2018 | Paris
3rd annual meeting of the GDR MecaQ
Single-molecule topological actuation of electromechanical modes
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Aug. 2018 | Grenoble
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Jan. 2018 | Basel
Department of Physics, University of Basel
Imaging wave function geometrical properties through Friedel oscillations
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Organized conferences
Jul. 2023 | Paris
Cité des Sciences et de l’Industrie, Paris
Mesoscopic Physics
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May. 2023 | Bordeaux
Institut d’Optique d’Aquitaine, Bordeaux University
Hybrid Systems for Quantum Technologies
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Oct. 2022 | Bordeaux
Institut d’Optique d’Aquitaine, Bordeaux University
Quantum Optomechanics & Nanomechanics
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Outreach
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Institut de Physique du CNRS (press release)
Une nouvelle méthode de microscopie en champ proche prometteuse pour étudier les propriétés topologiques des électrons
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Futura Sciences
La topologie des électrons du graphène trahie par un atome d’hydrogène
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Actualités du LOMA
Imager les propriétés topologiques des électrons avec un microscope
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Clément DUTREIX
Laboratoire Ondes et Matière d’Aquitaine (LOMA)
351 cours de la libération
33405 Talence Cedex
Phone : + 33 (0)5 40 00 XX XX
E-mail: clement.dutreix@u-bordeaux.fr