Quantum Photonics with Solids and Atoms

Prof. Dr. Hugues de Riedmatten

Activities:

Our research program lies at the crossing between quantum information science, quantum optics and nanoscale science. In particular, we are interested in the quantum control of light matter interaction between single photons and atomic ensembles implemented with rare-earth doped solids and cold atomic gases. The goal of the research is to develop the physical resources to implement quantum information networks and quantum repeaters which are required to increase the maximal distance of quantum communication. A more fundamental goal is to enable the observation of fascinating quantum effects, such as entanglement, with distant material systems and to explore and extend the limits of quantum coherence in complex material systems.

Position(s) Available:
• Post-doctoral position in experimental quantum optics with solid-state quantum memories
• Post-doctoral position in hybrid quantum nodes for quantum networks

Research Topics:
• Solid State Quantum Memories
• Quantum Frequency Conversion
• Quantum Light Sources Compatible With Solid State Quantum Memories
• Quantum Optics With Laser Cooled Atomic Ensembles
• Quantum Non-Linear Optics At The Single Photon Level With Cold Rydberg Atoms

Collaborations:

Links:
• Group homepage

Contact: This email address is being protected from spambots. You need JavaScript enabled to view it.

Quantum Photonics with Solids and Atoms

Prof. Dr. Hugues de Riedmatten

Group Leader
• Prof. Dr. Hugues de Riedmatten

Postdoctoral Researchers
• Dr. Bernardo Casabone
• Dr. Emanuele Distante
• Dr. Pau Farrera Soler
• Dr. Samuele Grandi
• Dr. Georg Heinze
• Dr. Alessandro Seri
• Dr. Klara Theophilo

PhD Students
• Chetan Deshmukh
• Stefano Duranti
• Lukas Heller
• Darío Lago Rivera
• Jan Lowinski
• Maria Auxiliadora Padron Brito
• Jelena Rakonjac

Former Group Members
• Boris Albrecht, PhD student
• Matteo Cristiani, Research fellow
• Emanuele Distante, PhD student
• Pau Farrera, PhD student
• Julia Fekete, Postdoctoral researcher
• Mustafa Gündogan, PhD student
• Georg Heinze, Postdoctoral researcher
• Kutlu Kutluer, PhD student
• Patrick Ledingham, Postdoctoral researcher
• Andreas Lenhard, Postdoctoral researcher
• Nicolas Maring, PhD student
• Margherita Mazzera, Research fellow
• David Paredes, Postdoctoral researcher
• Daniel Rieländer, PhD student
• Alessando Seri, PhD student

Quantum Photonics with Solids and Atoms

Prof. Dr. Hugues de Riedmatten

Regular Papers
• Coherent optical and spin spectroscopy of nanoscale Pr³⁺ : Y₂O₃ D. Serrano, C. Deshmukh, S. Liu, A. Tallaire, A. Ferrier, H. de Riedmatten, P. Goldner Phys. Rev. B 100, 144304 (2019)
• Time entanglement between a photon and a spin wave in a multimode solid-state quantum memory K. Kutluer, E. Distante, B. Casabone, S. Duranti, M. Mazzera, H. de Riedmatten Phys. Rev. Lett. 123, 030501 (2019)
• Cavity-enhanced spectroscopy of a few-ion ensemble in Eu³⁺:Y₂O₃ B. Casabone, J. Benedikter, T. Hümmer, F. Oehl, K. d. O. Lima, T. W. Hänsch, A. Ferrier, P. Goldner, H. d. Riedmatten, D. Hunger New J. Phys. 20, 095006 (2018)
• Laser-written integrated platform for quantum storage of heralded single photons A. Seri, G. Corrielli, D. Lago-Rivera, A. Lenhard, H. de Riedmatten, R. Osellame, M. Mazzera Optica 5, 934 (2018)
• Challenging local realism with human choices C. Abellán [et al.] Nature 557, 212-216 (2018)
• Quantum frequency conversion of memory-compatible single photons from 606 nm to the telecom C-band N. Maring, D. Lago-Rivera, A. Lenhard, G. Heinze, H. de Riedmatten Optica 5, 507-513 (2018)
• Entanglement between a photonic time-bin qubit and a collective atomic spin excitation P. Farrera, G. Heinze, H. de Riedmatten Phys. Rev. Lett. 120, 100501 (2018)
• Frequency-bin entanglement of ultra-narrow band non-degenerate photon pairs D. Rieländer, A. Lenhard, O. Jiménez Farìas, A. Máttar, D. Cavalcanti, M. Mazzera, A. Acín, H. de Riedmatten Quantum Sci. Technol. 3, 014007 (2018)
• Photonic quantum state transfer between a cold atomic gas and a crystal N. Maring, P. Farrera, K. Kutluer, M. Mazzera, G. Heinze, H. de Riedmatten Nature 551, 485-488 (2017)
• Quantum correlations between single telecom photons and a multimode on-demand solid state quantum memory A. Seri, A. Lenhard, D. Rieländer, M. Gündogan, P. M. Ledingham, M. Mazzera, H. de Riedmatten Phys. Rev. X 6, 021028 (2017)
• Solid-state source of nonclassical photon pairs with embedded multimode quantum memory K. Kutluer, M. Mazzera, H. de Riedmatten Phys. Rev. Lett. 118, 230402 (2017)
• Storing single photons emitted by a quantum memory on a highly excited Rydberg state E. Distante, P. Farrera, A. Padrón-Brito, D. Paredes-Barato, G. Heinze, H. de Riedmatten Nature Commun. 8, 14072 (2017)
• Cavity enhanced telecom heralded single photons for spin-wave solid state quantum memories D. Rieländer, A. Lenhard, M. Mazzera, H. de Riedmatten New J. Phys. 18, 123008 (2016)
• Generation of single photons with highly tunable wave shape from a cold atomic ensemble P. Farrera, G. Heinze, B. Albrecht, M. Ho, M. Chávez, C. Teo, N. Sangouard, H. de Riedmatten Nature Commun. 7, 13556 (2016)
• Storage enhanced nonlinearities in a cold atomic Rydberg ensemble E. Distante, A. Padrón-Brito, M. Cristiani, D. Paredes-Barato, H. de Riedmatten Phys. Rev. Lett. 117, 113001 (2016)
• Nonclassical correlations between a C-band telecom photon and a stored spin-wave P. Farrera, N. Maring, B. Albrecht, G. Heinze, H. de Riedmatten Optica 3, 1019-1024 (2016)
• Integrated optical memory based on laser-written waveguides G. Corrielli, A. Seri, M. Mazzera, R. Osellame, H. de Riedmatten Phys. Rev. Applied 5, 054013 (2016)
• Spectral-hole memory for light at the single-photon level K. Kutluer, M. F. Pascual-Winter, J. Dajczgewand, P. M. Ledingham, M. Mazzera, T. Chanelière, H. de Riedmatten Phys. Rev. A 93, 040302(R) (2016)
• Quantum memory for photons M. Afzelius, N. Gisin, H. de Riedmatten Phys. Today 68, 42 (2015)
• Controlled rephasing of single collective spin excitations in a cold atomic quantum memory B. Albrecht, P. Farrera, G. Heinze, M. Cristiani, H. de Riedmatten Phys. Rev. Lett. 115, 160501 (2015)
• Solid state spin-wave quantum memory for time-bin qubits M. Gündoğan, P. M. Ledingham, K. Kutluer, M. Mazzera, H. de Riedmatten Phys. Rev. Lett. 114, 230501 (2015)
• Electrical control of optical emitter relaxation pathways enabled by graphene K. J. Tielrooij, L. Orona, A. Ferrier, M. Badioli, G. Navickaite, S. Coop, S. Nanot, B. Kalinic, T. Cesca, L. Gaudreau,
  Q. Ma, A. Centeno, A. Pesquera, A. Zurutuza, H. de Riedmatten, P. Goldner, F. J. García de Abajo, P. Jarillo-Herrero, F. H. L. Koppens Nature Phys. 11, 281-287 (2015)
• Storage of up-converted telecom photons in a doped crystal N. Maring, K. Kutluer, J. Cohen, M. Cristiani, M. Mazzera, P. M Ledingham, H. de Riedmatten New J. Phys. 16, 113021 (2014)
• A waveguide frequency converter connecting rubidium-based quantum memories to the telecom C-band B. Albrecht, P. Farrera, X. Fernandez-Gonzalvo, M. Cristiani, H. de Riedmatten Nature Commun. 5, 3376 (2014)
• Quantum storage of heralded single photons in a praseodymium-doped crystal D. Rieländer, K. Kutluer, P. M. Ledingham, M. Gündoğan, J. Fekete, M. Mazzera, H. de Riedmatten Phys. Rev. Lett. 112, 040504 (2014)
• Prospective applications of optical quantum memories F. Bussières, N. Sangouard, M. Afzelius, H. de Riedmatten, C. Simon, W. Tittel J. Mod. Opt. 60, 1519-1537 (2013)
• Quantum frequency conversion of quantum memory compatible photons to telecommunication wavelengths X. Fernandez-Gonzalvo, G. Corrielli, B. Albrecht, M. Grimau, M. Cristiani, H. de Riedmatten Opt. Express 21, 19473-19487 (2013)
• A long-term memory for light H. de Riedmatten Physics 6, 80 (2013)
• Ultranarrow-band photon-pair source compatible with solid state quantum memories and telecommunication networks J. Fekete, D. Rieländer, M. Cristiani, H. de Riedmatten Phys. Rev. Lett. 110, 220502 (2013) Highlighted in Physics
• Coherent storage of temporally multimode light using a spin-wave atomic frequency comb memory M. Gündogan, M. Mazzera, P. M. Ledingham, M. Cristiani, H. de Riedmatten New J. Phys. 15, 045012 (2013)
• Quantum storage of a photonic polarization qubit in a solid M. Gündoğan, P. M. Ledingham, A. Almasi, M. Cristiani, H. de Riedmatten Phys. Rev. Lett. 108, 190504 (2012) Highlighted in Physics
  Highlighted in Physics World
• Spectroscopic investigations of europium doped yttrium silicate for quantum memory applications B. Lauritzen, N. Timoney, N. Gisin, M. Afzelius, H. de Riedmatten, Y. Sun, R. M. Macfarlane, R. L. Cone Phys. Rev. B 85, 115111 (2012)
• Quantum repeaters based on heralded qubit amplifiers J. Minár, H. de Riedmatten, N. Sangouard Phys. Rev. A 85, 032313 (2012)
• Photon-pair source with controllable delay based on shaped inhomogeneous broadening P. Sekatski, N. Sangouard, N. Gisin, H. de Riedmatten, M. Afzelius Phys. Rev. A 83, 053840 (2011)
• Quantum repeaters based on atomic ensembles and linear optics N. Sangouar, C. Simon, H. de Riedmatten, N. Gisin Rev. Mod. Phys. 83, 33-80 (2011)
• Precision requirements for spin-echo-based quantum memories K. Heshami, N. Sangouard, J. Minár, H. de Riedmatten, C. Simon Phys. Rev. A 83, 032315 (2011)
• Quantum storage of photonic entanglement in a crystal C. Clausen, I. Usmani, F. Bussières, N. Sangouard, M. Afzelius, H. de Riedmatten, N. Gisin Nature 469, 508–511 (2011) Highlighted in Nature

Proceedings & Book Chapter
• Quantum light storage in solid state atomic ensembles H. de Riedmatten, M. Afzelius Engineering the atom-photon interaction (Springer, 2015)

PhD Theses
• A multimode solid-state quantum memory for single photons A. Seri
• Quantum frequency conversion for hybrid quantum networks N. Maring
• A versatile source of light-matter quantum states based on laser-cooled atoms P. Farrera Soler
• Quantum memory protocols for solid-state devices K. Kutluer
• A Quantum light-matter interface with Rydberg polaritons in a cold atomic ensemble E. Distante
• Quantum light source compatible with solid-state quantum memories and telecom networks D. Rieländer
• Quantum control of single spin excitations in cold atomic quantum memories B. Albrecht
• Solid-state quantum memory for photonic qubits M. Gundogan

Quantum Photonics with Solids and Atoms

Prof. Dr. Hugues de Riedmatten

• 2019-08-29 Quantum Memories make their way A team of ICFO researchers reports in Physical Review Letters two studies on new advancements in the field of quantum memories and repeaters.
• 2019-07-03 Congratulations to New ICFO PhD graduate Dr. Alessandro Seri graduated with a thesis entitled “A Multimode Solid-State Quantum Memory for Single Photons”
• 2019-06-14 The Quantum Communications Infrastructure Declaration The European Commission signs the declaration with member states.
• 2019-05-13 The Gordon and Betty Moore Foundation awards ICFO’s frontier research on Quantum Science Dr Hugues de Riedmatten receives $1.1M grant to link quantum nodes for the quantum internet
• 2019-03-01 Graphene and Quantum Technologies team up at the Mobile World Congress 2019 The Graphene and Quantum Flagships exhibit technologies and present the initiatives at the world’s largest telecommunication event.
• 2018-09-13 Congratulations to New ICFO PhD graduate Dr. Nicolas Maring graduated with a thesis in “Quantum Frequency Conversion for Hybrid Quantum Networks”
• 2018-08-23 Quantum Storages on Optica cover An ICFO and IFN-CNR study on quantum storage makes it to the cover of OSA’s Optica August 2018 issue.
• 2018-07-26 Congratulations to New ICFO PhD graduate Dr. Pau Farrera graduated with a thesis in “A versatile source of light-matter quantum states based on laser-cooled atoms”
• 2018-07-20 Seminar
  SARAH THOMAS \'Broadband single-mode quantum memories\' SARAH THOMAS
  University of Oxford
  
• 2018-05-10 The BIG Bell Test in Nature Global physics experiment challenges Einstein with the help of 100,000 volunteers.
• 2018-04-10 Vanguard Award for Science Hugues de Riedmatten’s work on the first hybrid quantum information network 2^nd most voted.
• 2018-02-02 2017 City of Barcelona Awards
• 2017-11-23 Quantum Internet goes Hybrid ICFO researchers report the first demonstration of an elementary link of a hybrid quantum information network, using a cold atomic cloud and a doped crystal as quantum nodes and single photons as information carriers.
• 2017-10-23 Congratulations to New ICFO PhD graduate Dr. Kutlu Kutluer graduated with a thesis in “Quantum Memory Protocols for Photonic Solid-State Devices”.
• 2017-06-21 The Secretary of Telecommunications, Cybersecurity and Digital Society of the Government of Catalonia visits ICFO As part of the initiative smartCAT, the visit aimed to show the current status of research in quantum technologies at ICFO.
• 2017-05-31 Single spin waves in a crystal highlighted in Physics ICFO researchers report simultaneously two studies that demonstrate the creation of quantum correlations between single photons and single spin waves in a crystal.
• 2017-03-24 Congratulations to New ICFO PhD graduate Dr. Emanuele Distante graduated with a thesis in “A Quantum Light-Matter Interface with Rydberg Polaritons in a Cold Atomic Ensamble”
• 2017-01-23 Correlated single photon stored in highly non-linear medium An ICFO study in Nature Communications reports on the storage of a correlated single photon emitted by a quantum memory in a highly excited Rydberg medium.
• 2016-11-28 Tailoring single photons waveshapes A source of syncronizable single photons with an arbitrary waveshape in Nature Communications
• 2016-11-24 Congratulations to New ICFO PhD graduate Dr. Daniel Rieländer graduated with a thesis in ‘Quantum Light Source Compatible with Solid-State Quantum Memories and Telecom Networks’
• 2016-07-04 Carl Zeiss Award for Young Researchers ICFO Postdoc Georg Heinze honoured
• 2015-12-23 Quantum Memories in Physics Today APS\' specialized magazine dedicates a piece on Quantum Memories and their importance in the world of quantum information networks.
• 2015-12-01 Congratulations to New ICFO PhD graduate Dr. Boris Albrecht graduated with a thesis in ‘Quantum control of single spin excitations in cold atomic quantum memories‘
• 2015-12-01 PhD Thesis Defense
  BORIS ALBRECHT \'Quantum control of single spin excitations in cold atomic quantum memories\' BORIS ALBRECHT
  Quantum Photonics with Solids and Atoms
  ICFO-The Institute of Photonic Sciences, SPAIN
• 2015-10-22 Congratulations to New ICFO PhD graduate Dr. Mustafa Gündoğan graduated with a thesis in ‘Solid-State Quantum Memory for Photonic Qubits ‘
• 2015-10-22 PhD Thesis Defense
  MUSTAFA GUNDOGAN \'Solid-State Quantum Memory for Photonic Qubits\' MUSTAFA GUNDOGAN
  Quantum Photonics with Solids and Atoms
  ICFO-The Institute of Photonic Sciences
• 2015-01-20 Graphene enables all-electrical control of energy flow from light emitters First signatures of graphene plasmons at telecommunications wavelength revealed
• 2014-09-17 Max Planck-Prince of Asturias Award Mobility Grants Three ICFO researchers awarded prestigious grant.
• 2014-03-04 Quantum Frequency Conversion for Quantum Memories A solid state quantum interface linking quantum memories to the telecommunication network in Nature Communications.
• 2013-07-22 Viewpoints in APS Physics Prof. Hugues de Riedmatten offers perspective on a long-term memory of light.
• 2013-05-30 A Photon Pair Source for Quantum Repeaters Physics highlights the demonstration of a novel quantum light source for solid state quantum memories by ICFO researchers.
• 2012-05-14 Solid State Quantum Storage for Polarization Qubits Physics highlights the first demonstration of a crystal quantum memory for polarization qubits by the group led by Hugues de Riedmatten.
• 2011-09-18 ERC Starting Grants to Hugues de Riedmatten and Morgan Mitchell The grants fund projects in quantum light matter interfaces and quantum metrology.
• 2011-05-19 QI Processing in Rare-Earth Doped Solids The 6th edition of the meeting was organized by Hugues de Riedmatten’s group on May 12-13, 2011.
• 2011-04-11 Quantum Repeaters Hugues de Riedmatten coauthors a review paper on quantum repeaters in Reviews of Modern Physics.
• 2011-01-19 Entangled Photon Stored in a Solid Prof. Hugues de Riedmatten co-authors a paper in Nature reporting the first demonstration of storage of an entangled photon onto a solid.