Publications list

Méhaignerie, P. et al. Interacting Circular Rydberg Atoms Trapped in Optical Tweezers. PRX Quantum 6, 010353 (2025).

Lachaud, L. et al. Slowing Down a Coherent Superposition of Circular Rydberg States of Strontium. Phys. Rev. Lett. 133, 123202 (2024).

Ravon, B. et al. Array of Individual Circular Rydberg Atoms Trapped in Optical Tweezers. Phys. Rev. Lett. 131, 093401 (2023).

Méhaignerie, P., Sayrin, C., Raimond, J.-M., Brune, M. & Roux, G. Spin-motion coupling in a circular-Rydberg-state quantum simulator: Case of two atoms. Phys. Rev. A 107, 063106 (2023).

Wu, H., Richaud, R., Raimond, J.-M., Brune, M. & Gleyzes, S. Millisecond-Lived Circular Rydberg Atoms in a Room-Temperature Experiment. Phys. Rev. Lett. 130, 023202 (2023).

Muni, A. et al. Optical coherent manipulation of alkaline-earth circular Rydberg states. Nat. Phys. 18, 502–505 (2022).

Teixeira, R. C. et al. Preparation of Long-Lived, Non-Autoionizing Circular Rydberg States of Strontium. Phys. Rev. Lett. 125, 263001 (2020).

Cantat-Moltrecht, T. et al. Long-lived circular Rydberg states of laser-cooled rubidium atoms in a cryostat. Phys. Rev. Research 2, 022032 (2020).

Brune, M. & Papoular, D. J. Evaporative cooling to a Rydberg crystal close to its ground state. Phys. Rev. Res. 2, 023014 (2020).

Cortiñas, R. G. et al. Laser Trapping of Circular Rydberg Atoms. Phys. Rev. Lett. 124, 123201 (2020).

Assemat, F. et al. Quantum Rabi Oscillations in Coherent and in Mesoscopic Cat Field States. Phys. Rev. Lett. 123, 143605 (2019).

Dietsche, E. K. et al. High-sensitivity magnetometry with a single atom in a superposition of two circular Rydberg states. Nat. Phys. 15, 326–329 (2019).

Patsch, S. et al. Fast and accurate circularization of a Rydberg atom. Phys. Rev. A 97, 053418 (2018).

Nguyen, T. L. et al. Towards Quantum Simulation with Circular Rydberg Atoms. Phys. Rev. X 8, 011032 (2018).

Signoles, A. et al. Coherent Transfer between Low-Angular-Momentum and Circular Rydberg States. Phys. Rev. Lett. 118, 253603 (2017).

Facon, A. et al. A sensitive electrometer based on a Rydberg atom in a Schrödinger-cat state. Nature 535, 262–265 (2016).

Celistrino-Teixeira, R. et al. Microwaves Probe Dipole Blockade and van der Waals Forces in a Cold Rydberg Gas. Phys. Rev. Lett. 115, 013001 (2015).

Hermann-Avigliano, C. et al. Long coherence times for Rydberg qubits on a superconducting atom chip. Phys. Rev. A 90, 040502 (2014).

Signoles, A. et al. Confined quantum Zeno dynamics of a watched atomic arrow. Nat Phys 10, 715–719 (2014).

Peaudecerf, B. et al. Quantum feedback experiments stabilizing Fock states of light in a cavity. Phys. Rev. A 87, 042320 (2013).

Raimond, J. M. et al. Quantum Zeno dynamics of a field in a cavity. Phys. Rev. A 86, 032120 (2012).

Zhou, X. et al. Field Locked to a Fock State by Quantum Feedback with Single Photon Corrections. Phys. Rev. Lett. 108, 243602 (2012).

Sayrin, C. et al. Optimal Time-Resolved Photon Number Distribution Reconstruction of a Cavity Field by Maximum Likelihood. New Journal of P (2012).

Sayrin, C. et al. Real-time quantum feedback prepares and stabilizes photon number states. Nature 477, 73–77 (2011).

Sarlette, A., Raimond, J. M., Brune, M. & Rouchon, P. Stabilization of Nonclassical States of the Radiation Field in a Cavity by Reservoir Engineering. Phys. Rev. Lett. 107, 010402 (2011).

Raimond, J. M. et al. Phase Space Tweezers for Tailoring Cavity Fields by Quantum Zeno Dynamics. Phys. Rev. Lett. 105, 213601 (2010).

Dotsenko, I. et al. Quantum feedback by discrete quantum nondemolition measurements: Towards on-demand generation of photon-number states. Phys. Rev. A 80, 013805 (2009).

Brune, M. et al. Process Tomography of Field Damping and Measurement of Fock State Lifetimes by Quantum Nondemolition Photon Counting in a Cavity. Phys. Rev. Lett. 101, 240402 (2008).

Bernu, J. et al. Freezing Coherent Field Growth in a Cavity by the Quantum Zeno Effect. Phys. Rev. Lett. 101, 180402 (2008).

Deléglise, S. et al. Reconstruction of non-classical cavity field states with snapshots of their decoherence. Nature 455, 510–514 (2008).

Roux, C. et al. Bose-Einstein condensation on a superconducting atom chip. EPL 81, 56004 (2008).

Guerlin, C. et al. Progressive field-state collapse and quantum non-demolition photon counting. Nature 448, 889–894 (2007).

Gleyzes, S. et al. Quantum jumps of light recording the birth and death of a photon in a cavity. Nature 446, 297 (2007).

Kuhr, S. et al. An ultrahigh finesse Fabry-Perot superconducting resonator as photon box for cavity-QED experiments. APL 90, 164101 (2007).

Nirrengarten, T. et al. Realization of a Superconducting Atom Chip. Phys. Rev. Lett. 97, 200405 (2006).

Maioli, P. et al. Nondestructive Rydberg Atom Counting with Mesoscopic Fields in a Cavity. Phys. Rev. Lett. 94, 113601 (2005).

Milman, P. et al. A proposal to test Bell?s inequalities with mesoscopic non-local states in cavity QED. European Physical Journal D 32, 233–239 (2005).

Auffeves, A. et al. Entanglement of a Mesoscopic Field with an Atom Induced by Photon Graininess in a Cavity. Phys. Rev. Lett. 91, 230405 (2003).

Raimond, J. M., Brune, M. & Haroche, S. Manipulating quantum entanglement with atoms and photons in a cavity. Rev. Mod. Phys. 73, 565–582 (2001).

Osnaghi, S. et al. Coherent Control of an Atomic Collision in a Cavity. Phys. Rev. Lett. 87, 037902 (2001).

Bertet, P. et al. A complementarity experiment with an interferometer at the quantum–classical boundary. Nature 411, 166–170 (2001).

Nogues, G. et al. Seeing a single photon without destroying it. Nature 400, 239–242 (1999).

Maître, X. et al. Quantum Memory with a Single Photon in a Cavity. Phys. Rev. Lett. 79, 769–772 (1997).

Brune, M. et al. Observing the Progressive Decoherence of the “Meter” in a Quantum Measurement. Phys. Rev. Lett. 77, 4887–4890 (1996).

Brune, M. et al. Quantum Rabi Oscillation: A Direct Test of Field Quantization in a Cavity. Phys. Rev. Lett. 76, 1800–1803 (1996).

Davidovich, L., Brune, M., Raimond, J.-M. & Haroche, S. Mesoscopic quantum coherences in cavity QED: Preparation and decoherence monitoring schemes. Phys. Rev. A 53, 1295–1309 (1996).

Nussenzveig, P. et al. Preparation of high-principal-quantum-number ``circular’’ states of rubidium. Phys. Rev. A 48, 3991–3994 (1993).

Brune, M., Haroche, S., Raimond, J. M., Davidovich, L. & Zagury, N. Manipulation of photons in a cavity by dispersive atom-field coupling: Quantum-nondemolition measurements and generation of ‘Schrödinger cat states’. Phys. Rev. A 45, 5193–5214 (1992).

Haroche, S., Brune, M. & Raimond, J. M. Measuring photon numbers in a cavity by atomic interferometry: optimizing the convergence procedure. J. Phys. II France 2, 659–670 (1992).

Brune, M., Haroche, S., Lefevre, V., Raimond, J.-M. & Zagury, N. Quantum Nondemolition Measurement of Small Photon Numbers by Rydberg-Atom Phase-Sensitive Detection. Phys. Rev. Lett. 65, 976–979 (1990).