• Spectral engineering of cavity-protected polaritons in an atomic ensemble
    Baghdad, Mohamed; Bourdel, Pierre-Antoine; Schwartz, Sylvain; Ferri, Francesco; Reichel, Jakob; Long, Romain
    Nat. Phys. 19 1104-1109 (2023)
  • Cavity Nano-Optomechanics with Suspended Subwavelength-Sized Nanowires
    Reigue, Antoine; Fogliano, Francesco; Heringlake, Philip; Mercier de Lépinay, Laure; Besga, Benjamin; Reichel, Jakob; Pigeau, Benjamin; Arcizet, Olivier
    Phys. Rev. Appl. 20 14025 (2023)
  • Integrating a fiber cavity into a wheel trap for strong ion–cavity coupling
    Teller, Markus; Messerer, Viktor; Schüppert, Klemens; Zou, Yueyang; Fioretto, Dario A.; Galli, Maria; Holz, Philip C.; Reichel, Jakob; Northup, Tracy E.
    AVS Quantum Sci. 5 12001 (2023)
  • Observing Spin-Squeezed States under Spin-Exchange Collisions for a Second
    Huang, Meng-Zi; de la Paz, Jose Alberto; Mazzoni, Tommaso; Ott, Konstantin; Rosenbusch, Peter; Sinatra, Alice; Garrido Alzar, Carlos L.; Reichel, Jakob
    PRX Quantum 4 20322 (2023)
  • Quantum-enhanced multiparameter estimation and compressed sensing of a field
    Baamara, Youcef; Gessner, Manuel; Sinatra, Alice
    SciPost Physics 14 50 (2023)
  • Telecom Band Single-Photon Source Using a Grafted Carbon Nanotube Coupled to a Fiber Fabry–Perot Cavity in the Purcell Regime
    Antoine Borel, Théo Habrant-Claude, Federico Rapisarda, Jakob Reichel, Stephen K. Doorn, Christophe Voisin, and Yannick Chassagneux
    ACS Photonics 10, 2839 (2023)



  • Mapping the Cavity Optomechanical Interaction with Subwavelength-Sized Ultrasensitive Nanomechanical Force Sensors
    Fogliano, Francesco; Besga, Benjamin; Reigue, Antoine; Heringlake, Philip; Mercier de Lépinay, Laure; Vaneph, Cyril; Reichel, Jakob; Pigeau, Benjamin; Arcizet, Olivier
    Phys. Rev. X 11 21009 (2021)
  • Scaling Laws for the Sensitivity Enhancement of Non-Gaussian Spin States
    Baamara, Youcef; Sinatra, Alice; Gessner, Manuel
    Phys. Rev. Lett. 127 160501 (2021)
  • Nuclear Spin Squeezing in Helium-3 by Continuous Quantum Nondemolition Measurement
    Serafin, Alan; Fadel, Matteo; Treutlein, Philipp; Sinatra, Alice
    Phys. Rev. Lett. 127 13601 (2021)



  • Quantum Optomechanics in a Liquid
    Shkarin, A. B.; Kashkanova, A. D.; Brown, C. D.; Garcia, S.; Ott, K.; Reichel, J.; Harris, J. G. E.
    Phys. Rev. Lett. 122 153601 (2019)


  • Dual-wavelength fiber Fabry-Perot cavities with engineered birefringence
    Sébastien Garcia, Francesco Ferri, Konstantin Ott, Jakob Reichel, and Romain Long
    Opt. Express 26, 22249-22263 (2018).
  • Spontaneous spin squeezing in a rubidium BEC
    Théo Laudat, Vincent Dugrain, Tommaso Mazzoni, Meng-Zi Huang, Carlos L Garrido Alzar, Alice Sinatra, Peter Rosenbusch, and Jakob Reichel
    New J. Phys. 20 073018 (2018).
  • Improving the lifetime in optical microtraps by using elliptically polarized dipole light
    Sébastien Garcia, Jakob Reichel, and Romain Long
    Phys. Rev. A 97, 023406 (2018).


  • Exploiting One-Dimensional Exciton–Phonon Coupling for Tunable and Efficient Single-Photon Generation with a Carbon Nanotube
    A. Jeantet, Y. Chassagneux, T. Claude, P. Roussignol, J. S. Lauret, J. Reichel, and C. Voisin
    Nano Lett., 2017, 17 (7), pp 4184–4188.
  • Superfluid Brillouin optomechanics
    A. D. Kashkanova, A. B. Shkarin, C. D. Brown, N. E. Flowers-Jacobs, L. Childress, S. W. Hoch, L. Hohmann, K. Ott, J. Reichel, and J. G. E. Harris
    Nature Physics volume 13, pages 74–79 (2017).
  • Quantum optomechanics in a liquid
    A. B. Shkarin, A. D. Kashkanova, C. D. Brown, S. Garcia, K. Ott, J. Reichel, and J. G. E. Harris


  • Widely Tunable Single-Photon Source from a Carbon Nanotube in the Purcell Regime
    A. Jeantet, Y. Chassagneux, C. Raynaud, Ph. Roussignol, J. S. Lauret, B. Besga, J. Estève, J. Reichel, and C. Voisin
    Phys. Rev. Lett. 116, 247402 (2016).
  • Limits of atomic entanglement by cavity feedback: From weak to strong coupling
    Krzysztof Pawłowski, Jérôme Estève, Jakob Reichel, and Alice Sinatra
    Europhysics Letters 113 34005 (2016).
  • Millimeter-long fiber Fabry-Perot cavities
    Konstantin Ott, Sebastien Garcia, Ralf Kohlhaas, Klemens Schüppert, Peter Rosenbusch, Romain Long, and Jakob Reichel
    Optics Express Vol. 24, Issue 9, pp. 9839-9853 (2016).


  • Deterministic generation of multiparticle entanglement by quantum Zeno dynamics
    Giovanni Barontini, Leander Hohmann, Florian Haas, Jérôme Estève, and Jakob Reichel
    Science Vol. 349, Issue 6254, pp. 1317-1321 (2015).
  • Microwave-dressed state-selective potentials for atom interferometry
    V. Guarrera, R. Szmuk, J. Reichel & P. Rosenbusch
    New J. Phys. 17, 083022 (2015).
  • Stability of a trapped-atom clock on a chip
    Ramon Szmuk, Vincent Dugrain, Wilfried Maineult, Jakob Reichel & Peter Rosenbusch
    arXiv:1502.03864 (2015).
  • Polariton Boxes in a Tunable Fiber Cavity
    Benjamin Besga, Cyril Vaneph, Jakob Reichel, Jérôme Estève, Andreas Reinhard, Javier Miguel-Sanchez, Ataç Imamoğlu & Thomas Volz
    Phys. Rev. Applied 3, 014008 (2015).
  • Transverse-mode coupling and diffraction loss in tunable Fabry–Pérot microcavities
    Julia Benedikter, Thomas Hümmer, Matthias Mader, Benedikt Schlederer, Jakob Reichel, Theodor W Hänsch and David Hunger
    New J. Phys. 17 053051 (2015).


  • Photon Emission and Absorption of a Single Ion Coupled to an Optical-Fiber Cavity
    M. Steiner, H. M. Meyer, J. Reichel & M. Köhl
    Phys. Rev. Lett. 113, (2014).
  • Symmetric microwave potentials for interferometry with thermal atoms on a chip
    M. Ammar et al.
    arXiv:1412.7433 (2014).
  • Narrow-band single photon emission at room temperature based on a single nitrogenvacancy center coupled to an all-fiber-cavity
    Roland Albrecht et al.
    Appl. Phys. Lett. 105, 073113 (2014).
  • Optically Mediated Hybridization between Two Mechanical Modes
    A. B. Shkarin, N. E. Flowers-Jacobs, S. W. Hoch, A. D. Kashkanova, C. Deutsch, J. Reichel & J. G. E. Harris
    Phys. Rev. Lett. 112, 013602 (2014).
  • Alkali vapor pressure modulation on the 100 ms scale in a single-cell vacuum system for cold atom experiments
    Vincent Dugrain, Peter Rosenbusch & Jakob Reichel
    Rev. Sci. Instrum. 85, 083112 (2014).
  • Entangled states of more than 40 atoms in an optical fiber cavity
    Florian Haas, Jürgen Volz, Roger Gehr, Jérôme Estève & Jakob Reichel
    Science 344, 180 (2014).



  • Optomechanics in a Fiber Cavity
    N. E. Flowers-Jacobs, J. C. Sankey, A. Kashkanova, S. W. Hoch, A. M. Jayich, C. Deutsch, J. Reichel & J. G. E. Harris
    2012 Conference On Lasers And Electro-Optics (CLEO) BCK05 (2012).
  • H. Kaupp, M. Mader, L. Costa, C. Deutsch, J. Reichel, T. W. Hansch & D. Hunger. in Icap 2012 – 23rd International Conference On Atomic Physics (eds. Dulieu, O., Grangier, P., Leduc, M. & Perrin, H.) (2012).
  • Fiber-Cavity-Based Optomechanical Device
    N. E. Flowers-Jacobs, S. W. Hoch, J. C. Sankey, A. Kashkanova, A. M. Jayich, C. Deutsch, J. Reichel & J. G. E. Harris
    Appl. Phys. Lett. 101, 221109 (2012).
  • Spin Waves and Collisional Frequency Shifts of a Trapped-Atom Clock
    W. Maineult, C. Deutsch, K. Gibble, J. Reichel, and P. Rosenbusch
    Phys. Rev. Lett. 109, 020407 (2012).
  • Spin squeezing in Bose-Einstein condensates: Limits imposed by decoherence and non-zero temperature
    A. Sinatra, J.-C. Dornstetter, and Y. Castin
    Frontiers of Physics 7, 86 (2012).
  • Spin squeezing in finite temperature Bose-Einstein condensates: Scaling with the system size
    A. Sinatra, E. Witkowska, and Y. Castin
    Eur. Phys. J. ST 203, 87 (2012).
  • Experimental investigation of transparent silicon carbide for atom chips
    L. Huet, M. Ammar, E. Morvan, N. Sarazin, J.-P. Pocholle, J. Reichel, C. Guerlin, and S. Schwartz
    Appl. Phys. Lett. 100, 121114 (2012).
  • Laser micro-fabrication of concave, low-roughness features in silica
    D. Hunger, C. Deutsch, R. J. Barbour, R. J. Warburton, and J. Reichel
    AIP Advances 2, 012119 (2012).


  • Limit of Spin Squeezing in Finite-Temperature Bose-Einstein Condensates
    A. Sinatra, E. Witkowska, J.-C. Dornstetter, Y. Li, and Y. Castin
    Phys. Rev. Lett. 107, 060404 (2011).
  • Measurement of the internal state of a single atom without energy exchange
    J. Volz, R. Gehr, G. Dubois, J. Estève, and J. Reichel
    Nature 475, 210 (2011).
  • Compact frequency standard using atoms trapped on a chip
    F. Ramirez-Martinez, C. Lacroute, P. Rosenbusch, F. Reinhard, C. Deutsch, T. Schneider, and J. Reichel
    Adv. Space Res. 47, 247 (2011).


  • Cavity-based single atom preparation and high-fidelity hyperfine state readout
    R. Gehr, J. Volz, G. Dubois, T. Steinmetz, Y. Colombe, B. Lev, R. Long, J. Estève, and J. Reichel
    Phys. Rev. Lett. 104, 203602 (2010).
  • Enhanced and Reduced Atom Number Fluctuations in a BEC Splitter
    K. Maussang, E. G. Marti, T. Schneider, P. Treutlein, Y. Li, A. Sinatra, R. Long, J. Estève, and J. Reichel
    Phys. Rev. Lett. 105, 080403 (2010).
  • Spin Self-Rephasing and Very Long Coherence Times in a Trapped Atomic Ensemble
    C. Deutsch, F. Ramirez-Martinez, C. Lacroûte, F. Reinhard, T. Schneider, J.-N. Fuchs, F. Piéchon, F. Laloë, J. Reichel, and P. Rosenbusch
    Phys. Rev. Lett. 105, 020401 (2010).
  • A fiber Fabry-Perot cavity with high finesse
    D. Hunger, T. Steinmetz, Y. Colombe, C. Deutsch, T. W. Hänsch, and J. Reichel
    New J. Phys. 12, 065038 (2010).
  • Bose-Einstein Condensation in Microgravity
    T. Van Zoest, N. Gaaloul, Y. Singh, H. Ahlers, W. Herr, S. T. Seidel, W. Ertmer, E. Rasel, M. Eckart, E. Kajari, S. Arnold, G. Nandi, W. P. Schleich, R. Walser, A. Vogel, K. Sengstock, K. Bongs, W. Lewoczko-Adamczyk, M. Schiemangk, T. Schuldt, A. Peters, T. Könemann, H. Müntinga, C. Lämmerzahl, H. Dittus, T. Steinmetz, T. W. Hänsch, and J. Reichel
    Science 328, 1540 (2010).
  • Atom-chip-based generation of entanglement for quantum metrology
    M. F. Riedel, P. Böhi, Y. Li, T. W. Hänsch, A. Sinatra, and P. Treutlein
    Nature 464, 1170 (2010).
  • Particle number fluctuations in a cloven trapped Bose gas at finite temperature
    A. Sinatra, Y. Castin, and Y. Li
    Phys. Rev. A 81, 053623 (2010).
  • Resonant Coupling of a Bose-Einstein Condensate to a Micromechanical Oscillator
    D. Hunger, S. Camerer, T. W. Hänsch, D. König, J. P. Kotthaus, J. Reichel, and P. Treutlein
    Phys. Rev. Lett. 104, 143002 (2010).
  • Low-Phase-Noise Frequency Synthesizer for the Trapped Atom Clock on a Chip
    F. Ramirez-Martinez, M. Lours, P. Rosenbusch, F. Reinhard, and J. Reichel
    IEEE Trans. Ultrason. Ferroelectr. Freq. Control 57, 88 (2010).
  • Preliminary Results of the Trapped Atom Clock on a Chip
    C. Lacroûte, F. Reinhard, F. Ramirez-Martinez, C. Deutsch, T. Schneider, J. Reichel, and P. Rosenbusch
    IEEE Trans. Ultrason. Ferroelectr. Freq. Control 57, 106 (2010).


  • Fluctuating nanomechanical system in a high finesse optical microcavity
    I. Favero, S. Stapfner, D. Hunger, P. Paulitschke, J. Reichel, H. Lorenz, E. M. Weig, and K. Karrai
    Opt. Express 17, 12813 (2009).
  • Coherent manipulation of Bose–Einstein condensates with state-dependent microwave potentials on an atom chip
    P. Böhi, M. F. Riedel, J. Hoffrogge, J. Reichel, T. W. Hänsch, and P. Treutlein
    Nature Physics 5, 592 (2009).
  • Spin squeezing in a bimodal condensate: spatial dynamics and particle losses
    Y. Li, P. Treutlein, J. Reichel, and A. Sinatra
    Eur. Phys. J. B 68, 365 (2009).
  • Coherence time of a Bose-Einstein condensate
    A. Sinatra, Y. Castin, and E. Witkowska
    Phys. Rev. A 80, 033614 (2009).



  • Strong atom-field coupling for Bose-Einstein condensates in an optical cavity on a chip
    Y. Colombe, T. Steinmetz, G. Dubois, F. Linke, D. Hunger & J. Reichel
    Nature 450, 272 (2007).
  • Bose-Einstein condensate coupled to a nanomechanical resonator on an atom chip
    P. Treutlein, D. Hunger, S. Camerer, T. W. Hänsch & J. Reichel
    Phys. Rev. Lett. 99, 140403 (2007).
  • Atom interferometers and optical atomic clocks: New quantum sensors for fundamental physics experiments in space
    G. M. Tino et al.
    Nucl. Phys. B 166, 159-165 (2007).
  • Squeezing and entangling nuclear spins in helium 3
    G. Reinaudi, A. Sinatra, A. Dantan, M. Pinard
    Jour. Mod. Opt. 54, 675 (2007).
  • Non-diffusive phase spreading of a Bose-Einstein condensate at finite temperature
    A. Sinatra, Y. Castin, E. Witkowska
    Phys. Rev. A 75, 033616 (2007).


  • Miniature fluorescence detector for single atom observation on a microchip
    A. Takamizawa, T. Steinmetz, R. Delhuille, T. W. Hänsch & J. Reichel
    Optics Express 14, 10976-10983 (2006).
  • Bose–Einstein condensates in microgravity
    A. Vogel et al.
    Appl. Phys. B 84, 663-671 (2006).
  • Quantum information processing in optical lattices and magnetic microtraps
    P. Treutlein et al.
    Fortschr. Phys. 54, 702-718 (2006).
  • Microwave potentials and optimal control for robust quantum gates on an atom chip
    P. Treutlein, T. W. Hänsch, J. Reichel, A. Negretti, M. A. Cirone & T. Calarco
    Phys. Rev. A 74, 022312 (2006).
  • A stable fiber-based Fabry-Perot cavity
    T. Steinmetz, Y. Colombe, D. Hunger, T. W. Hänsch, A. Balocchi, R. J. Warburton & J. Reichel
    Appl. Phys. Lett. 89, 111110 (2006).
  • Quantum fluctuations of two optical fields close to Electromagnetically Induced Tranparency
    A. Sinatra
    Phys. Rev. Lett. 97, 253601 (2006).


  • Transporting, splitting and merging of atomic ensembles in a chip trap
    P. Hommelhoff, W. Hänsel, T. Steinmetz, T. W. Hänsch & J. Reichel
    New J. Phys. 7, 3 (2005).
  • Long distance magnetic conveyor for precise positioning of ultracold atoms
    R. Long, T. Rom, W. Hänsel, T. W. Hänsch & J. Reichel
    European Physical Journal D 35, 125-133 (2005).