MSS Talks - Presentations
| 1 July (Monday) | |||
| MoOM1 | B. Schwarz, P. Reininger,W. Schrenk, H. Detz, O. Baumgartner, T. Zederbauer, A. M. Andrews, H. Kosina, G. Strasser (Vienna University of Technology, Austria) Monolithically integrated quantum cascade laser and detector |
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| MoOM2 | G. Cerulo1, V. Liverini1, P. Friedli2, H. Sigg2, Faist1 (1Institute of Quantum Electronics; 2Paul Scherrer Institute, Switzerland) Optically driven current turnstile based on self-assembled semiconductor quantum dots |
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| MoOM3 | C. Sturm1,2, D. Tanese1, H.S. Nguyen1, H. Flayac3, E. Gallopin1, A. Lemaître1, I. Sagnes1, D. Solnyshkov3, A. Amo1, G. Malpuech3, J. Bloch1 ((1LPN/CNRS-Marcoussis, France; 2Universität Leipzig, Germany; 3Clermont Université, Université Blaise Pascal, France) All-optical controlled polariton Mach-Zehnder interferometer |
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| MoIM1 | Y. Arakawa1, M. Holmes1, P. Podemski2, K. Choi1, M. Arita1, S. Kako1 (1University of Tokyo, Japan; 2Wrocław University of Technology, Poland) Advances in GaN quantum dots for coherent control | ||
| MoOM4 | J. Fischer1, I. Lederer1, A. Chernenko2, S. Brodbeck1, A. Rahimi-Iman1, M. Amthor1, C. Schneider1, M. Kamp1, S. Höfling1 (1Universität Würzburg, Germany; 2Russian Academy of Sciences, Chernogolovka) Magnetic field pecularities of three distinct excitation regimes of a quantum-well microcavity |
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| MoOM5 | B. Askenazi1, A. Delteil1, A. Vasanelli1, Y. Todorov1, G. Beaudoin2, I. Sagnes2, C. Sirtori1 (1Univ. Paris Diderot, Sorbonne Paris Cité; 2CNRS, Marcoussis, France) Ultrastrong light-matter coupling with multisubband plasmons |
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| MoOM6 | C. Antón1, G. Tosi1, M.D. Martín1, Z. Hatzopoulos2,3, G. Konstantinidis2, P. Eldridge2, P.G. Savvidis2,3, L. Vina1 (1Universidad Autónoma de Madrid, Spain; 2FORTH-IESL, Greece; 3University of Crete, Greece) Implementation of an AND gate with Bose-Einstein polariton condensates |
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| MoIM2 | L. Dominici1,2, D. Ballarini1,2, M. De Giorgi1,2, E. Cancellieri3, A. Bramati3, G. Gigli1,2, F.P. Laussy4, D. Sanvitto1,2 (1CBN Lecce, Italy; 2NNL - CNR, Lecce, Italy; 3LKB, ENS et CNRS, Paris, France; 4Universidad Autonoma de Madrid, Spain) Fluids of polariton condensates: from a drop in a quantum pond to optical gates | ||
| 2 July (Tuesday) | |||
| TuOM1 | N. Balakrishnan1, G. Pettinari1,5, O. Makarovsky1, L. Turyanska1, M.W. Fay1, M. De Luca3, A. Polimeni3, M. Capizzi3, F. Martelli4, S. Rubini4, A. Patane1 (1The University of Nottingham, UK; 3Sapienza Universita di Roma, Italy; 4TASC-IOM-CNR, Trieste, Italy; 5IFN-CNR, Roma, Italy) Laser writing of hydrogen containing III-N-Vs |
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| TuOM2 | J.A. Alexander-Webber1, C. Faugeras2, P. Kossacki2,3, M. Potemski2, X. Wang1, H.D. Kim1, S.D. Stranks1, R.A. Taylor1, R.J. Nicholas1 (1Oxford University, UK; 2LNCMI-CNRS, Grenoble, France; 3University of Warsaw, Poland) High magnetic field imaging and spectroscopy of bound excitons in individual carbon nanotubes |
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| TuOM3 | Kanji Yoh, Tomotsugu Ishikura (Hokkaido University, Sapporo, Japan) Spin injection into InAs heterostructures beyond fundamental limit | ||
| TuOM4 | Fei Pei, Edward Laird, Gary Steele, Leo Kouwenhoven (Delft University of Technology, The Netherlands) Valley-spin qubit in a carbon nanotube |
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| TuIM1 | W. Pfaff1, H.Bernien1, B. Hensen1, G. Koolstra1, M.S. Blok1, L. Robledo1, T.H. Taminiau1, M. Markham2, D.J. Twitchen2, L. Childress3, R. Hanson1 (1Delft University of Technology, Netherlands; 2Element Six Ltd., UK; 3McGill University, Montreal, Canada) Quantum networks with spins in diamond |
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| TuOM5 | C. Maissen1, G. Scalari1, F. Valmorra1, M. Beck1, C. Reichl2, W. Wegscheider2, D. Hagenmuller3, S. De Liberato3, C. Ciuti3, J. Faist1 (1Hochschule Zurich, Switzerland; 2Technische Hochschule Zurich, Switzerland; 3Universite Paris Diderot and CNRS, Paris, France) Study on the ultrastrong coupling of the cyclotron transition of two dimensional electron gases to THz split ring resonators |
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| TuOM6 | E. Cerda-Méndez1, D. Sarkar2, D.N. Krizhanovskii2, S. Gavrilov3, K. Biermann1, M.S. Skolnick2, P.V. Santos1 (1Paul Drude Institut für Festkörperelektronik, Germany; 2University of Sheffield, UK; 3Institute of Solid State Physics, Chernogolovka, Russia) Polaritonic two-dimensional nonlinear crystals |
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| TuOM7 | M. Sich1, F. Fras1, J. K. Chana1, D.V. Skryabin2, A.V. Gorbach2, E.A. Cerda-Méndez3, K. Biermann3, R. Hey3, P.V. Santos3, M.S. Skolnick1, D. N. Krizhanovskii1 (1University of Sheffield, UK; 2University of Bath, UK; 3Paul-Drude-Institut für Festkörperelektronik, Berlin, Germany) Bright polariton soliton trains in a semiconductor microcavity | ||
| TuOM8 | G. Grosso, G. Nardin, Y. L´eger, F. Morier-Genoud, B. Deveaud (EPFL, Switzerland) Dynamics of formation and decay of oblique dark solitons in polariton quantum fluids | ||
| TuIM2 | C. Hopfmann1, F. Albert2, E. Stock1, M. Lermer2, C. Schneider2, S. Höfling2, A. Forchel2, M. Kamp2, S. Reitzenstein1 (1Technische Universität Berlin; 2Universität Würzburg, Germany) On-chip quantum optics using electrically driven quantum dot - micropillar cavities |
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| TuOM9 | H. Sellier1, M. Pala2, S. Baltazar2, P. Liu1, B. Hackens3, F. Martins3, X. Wallart4, L. Desplanque4, V. Bayot1,3, S. Huant1 (1CNRS & Université Joseph Fourier, Grenoble; 2IMEP-LAHC, Grenoble INP; 3IMCN/NAPS, Louvain-la-Neuve; 4IEMN, UMR CNRS 8520, UST Lille, France) A novel mesoscopic phenomenon: An analog of the Braess paradox in 2DEG networks |
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| TuOM10 | E.J.H. Lee1, X. Jiang2, M. Houzet1, R. Aguado3, S. De Franceschi1 (1SPSMS, CEA-INAC/UJF-Grenoble, France; 2Harvard University, Cambridge, USA; 3Instituto de Ciencia de Materiales de Madrid, Spain) Spin-resolved Andreev levels in hybrid superconductor-semiconductor nanowire devices |
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| TuOM11 | H.J. Krenner1, S.S. Kapfinger1, D.A. Fuhrmann1, A. Wixforth1, S.M. Thon2, H. Kim2, D. Bouwmeester2, P.M. Petroff3, R. Blattmann4, P. Hänggi4, S. Kohler5 (1,4Universität Augsburg, Germany; 2,3University of California, Santa Barbara, USA; 5Instituto de Ciencia de Materiales de Madrid, Spain) Acousto-mechanical tuning of photonic crystal nanocavity modes for quantum gate applications | ||
| TuIM3 | H. Sanada1, Y. Kunihashi1, H. Gotoh1, K. Onomitsu1, M. Kohda2, J. Nitta2, P. V. Santos3, T. Sogawa1 (1NTT Corporation, Japan; 2Tohoku University, Sendai, Japan; 3 Paul-Drude-Institut für Festkörperelektronik, Berlin, Germany) Magnetic-field-free electron spin resonance in winding GaAs channel |
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| TuOM12 | R. Trotta1,2, C. Ortix3, E. Zallo2, O.G. Schmidt2 and A. Rastelli1,2 (1Johannes Kepler University Linz,Austria; 2,3IFW Dresden, Germany) Erasing the exciton fine structure splitting in semiconductor quantum dots |
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| TuOM13 | M. Syperek1, M. Baranowski1, G. Sęk1, J. Misiewicz1, A. Löffler2, S. Höfling2, S. Reitzenstein2,3, M. Kamp2, A. Forchel2 (1Wrocław University of Technology, Poland; 2Universität Würzburg, Germany; 3Institut für Festkörperphysik,Berlin, Germany) Atypical thermally-induced carrier relaxation processes in self-assembled In0.3Ga0.7As/GaAs quantum dots |
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| TuOM14 | K. Müller, R. Ripszam, T. Kaldewey, M. Bichler, G. Koblmüller, G. Abstreiter, J.J. Finley (TU Muenchen, Garching, Germany) Resonant optical initialization, control and readout of a spin qubit with near unity fidelity | ||
| TuIM4 | Evgeny Chekhovich (University of Sheffield, UK) Using nuclear magnetic resonance to explore the physics of nuclear spins in semiconductor quantum dots |
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| 3 July (Wednesday) | |||
| WeOM1 | C.L. Yu1, M.T. Deng1, P. Caro1, H.Q. Xu1,2 (1Lund University, Sweden; 2Peking University, China) Kondo correlation and spin-orbit interaction in an InSb nanowire quantum dot coupled to the Nb contacts |
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| WeOM2 | V.S. Pribiag1, S. Nadj-Perge1, J. W.G. van den Berg1, S.M. Frolov1, I. van Weperen1, S.R. Plissard2, E.P.A.M. Bakkers1,2, L.P. Kouwenhoven1 (1Delft University of Technology; 2Eindhoven University of Technology, The Netherlands) Electrical control of electron and hole spins in InSb nanowire quantum dots |
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| WeOM3 | T. Fujisawa1, S. Sharmin1, K. Muraki2 (1Tokyo Institute of Technology; 2NTT Corporation, Atsugi, Japan) Complete lifting of spin blockade under unstable electron-nuclear dynamics | ||
| WeOM4 | D. Dunker1, J. Debus1, T.S. Shamirzaev2, D.R. Yakovlev1,3, K.S. Zhuravlev2, M. Bayer1 (1Technische Universität Dortmund, Germany; 2Russian Academy of Sciences, Novosibirsk, Russia; 3Ioffe, St. Petersburg, Russia) Spin properties of the indirect exciton in indirect band-gap (In,Al)As/AlAs quantum dot ensembles |
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| WeIM1 | W. Gao, P. Fallahi, E. Togan, A. Deteil, A. Imamoglu (ETH Zurich, Switzerland) Spin-photon quantum interface in quantum dots |
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| WeOM5 | Toshihiro Kubo1, Yasuhiro Tokura1,2 (1University of Tsukuba; 2NTT Corporation, Japan) Probing spins in spin interferometer with superconducting lead |
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| WeOM6 | T.-M. Chen1, M. Pepper2, I. Farrer3, G.A.C. Jones3, D.A. Ritchie3 (1National Cheng Kung University, Tainan, Taiwan; 2University College London, UK; 3Cavendish Laboratory, Cambridge, UK) All-electrical spin injection from a quantum point contact |
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| WeOM7 | N. Ares1, V.N. Golovach1,2, G. Katsaros1,2, M. Stoffel3, F. Fournel4, L.I. Glazman5, O. G. Schmidt2, S. De Franceschi1 (1SPSMS, CEA-INAC/UJF-Grenoble, France; 2IFW Dresden, Germany; 3UMR CNRS, Vandoeuvre-les-Nancy, France; 4CEA, LETI, MINATEC, Grenoble, France; 5Yale University, New Haven, USA) SiGe self-assembled nanostructures for quantum spintronics | ||
| WeOM8 | M. Oltscher, M. Ciorga, M. Utz, D. Schuh, D. Bougeard, D. Weiss (University of Regensburg, Germany) Spin injection into a high mobility 2DEG system | ||
| WeIM2 | Alberta Bonanni (Johannes Kepler University, Linz, Austria) Modulated semiconductor structures of magnetically doped nitrides |
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| 4 July (Thursday) | |||
| ThOM1 | T. Kümmell1, W. Quitsch1, O. Fedorych1, A. Gust2, C. Kruse2, D. Hommel2, G. Bacher1 (1Universität Duisburg-Essen; 2Universität Bremen, Germany) Single photon sources for room temperature operation based on CdSe/ZnSSe/MgS quantum dots |
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| ThOM2 | M. Goryca1, M. Koperski1, P. Wojnar2, T. Smoleński1, T. Kazimierczuk1, A. Golnik1, P. Kossacki1 (1University of Warsaw, Poland; 2Polish Academy of Sciences, Warsaw, Poland) Coherent oscillations of a single Mn2+ spin in a CdTe quantum dot |
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| ThOM3 | G. Reithmaier, S. Lichtmannecker, T. Reichert, P. Hasch, M. Bichler, R. Gross and J.J. Finley (Technische Universität München, Germany) On-chip time resolved detection of quantum dot emission using integrated superconducting single photon detectors | ||
| ThOM4 | I. Schwartz, L. Gantz, E.R. Schmidgall, E. Bordo, D. Cogan, Y. Kodriano, E. Poem, D. Gershoni (Technion, Haifa, Israel) Entanglement between a dark exciton and a single photon | ||
| ThIM1 | P.L. McMahon1, K. De Greve1,2, Leo Yu1, J. Pelc1, C. Jones1, C.M. Natarajan1, N.Y. Kim1, E. Abe1, S. Maier3, C.Schneider3, M. Kamp3, S. Höfling3, R. Hadfield4, A. Forchel3, M.M. Fejer1, Y. Yamamoto1,5 (1Stanford University, USA; 2Harvard University, USA; 3Universität Würzburg, Germany; 4Heriot-Watt University, Scotland; 5National Institute of Informatics, Japan) High-fidelity spin-photon entanglement generation using self-assembled InAs quantum dots |
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| ThOM5 | P. Scarlino1, E. Kawakami1, M. Shafiei1, L.M.K. Vandersypen1, W. Wegscheider2 (1TU Delft, Netherlands; 2ETH Zurich, Switzerland) Spin-orbit anisotropy and relaxation of GaAs single electron spin qubits |
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| ThOM6 | O. Drachenko1, D. Kozlov2, A. Ikonnikov2, K. Spirin2, V. Gavrilenko2, H. Schneider1, M. Helm1, J. Wosnitza3 (1Institute of Ion-Beam Physics and Materials Research, Dresden, Germany; 2Institute for Physics of Microstructures, Nizhny Novgorod, Russia; 3Dresden High Magnetic Field Laboratory, Germany) Extra-long hole spin relaxation time in InGaAs/GaAs quantum wells probed by cyclotron resonance spectroscopy |
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| ThOM7 | F. Nagasawa1, D. Frustaglia2, H. Saarikoski3, M. Kohda1,4, K. Richter3, J. Nitta1 (1Tohoku University, Sendai, Japan; 2Universidad de Sevilla, Spain; 3Universität Regensburg, Germany; 4PRESTO, Saitama, Japan) Controlling of the geometric phase of electron spin in a semiconductor ring device |
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| ThOM8 | A. Hernandez-Minguez, K. Biermann, R. Hey and P. V. Santos (Paul-Drude-Institut für Festkörperelektronik, Berlin, Germany) Electric control of spin lifetimes in GaAs (111) quantum wells | ||
| ThIM2 | J.J. Sinova1,2, T. Jungwirth2,3, A.F. Ferguson4 (1Texas AM University, College Station, USA; 2Institute of Physics ASCR, Praha, Czech Republic; 3University of Nottingham, UK;4Hitachi Cambridge Laboratory, UK) Anti-damping intrinsic spin-orbit torque in GaMnAs arising from Berry phase |
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| ThOM9 | N. Ubbelohde1, C. Fricke1, F. Hohls1,2, R.J. Haug1 (1Leibniz Universität Hannover, Germany; 2Physikalisch-Technische Bundesanstalt, Braunschweig, Germany) Spin-dependent shot noise enhancement in a quantum dot |
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| ThOM10 | M.P. Nowak, B. Szafran (AGH University of Science and Technology, Kraków, Poland) Spin blockade lifting due to phonon mediated spin relaxation and electric dipole spin resonance in nanowire quantum dots |
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| ThOM11 | R. Thalineau1, A.D. Wieck2, C. Bäuerle1, L. Saminadayar1, T. Meunier1 (1CNRS and Universite Joseph Fourier, Grenoble, France; 2Ruhr-Universität Bochum, Germany) A few-electron quadruple quantum dot in a closed loop | ||
| ThIM3 | T. Fujita1, K. Morimoto1, S. Teraoka1, G. Allison1,2, A. Ludwig3, A.D. Wieck3, A. Oiwa1, S. Tarucha1 (1University of Tokyo, Japan; 2Princeton University, USA; 3Ruhr-Universität Bochum, Germany) Real-time spin detection of single photo-electrons with a double quantum dot in a g-factor engineered quantum well |
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| ThOM12 | D. Laroche1,2, G. Gervais1, M.P. Lilly2, J.L. Reno2 (1McGill University, Montreal, Canada; 2Sandia National Laboratories, Albuquerque, USA) Coulomb drag in vertically-integrated quantum wires |
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| ThP83 | Bahram Ganjipour1, Martin Ek2, B. Mattias Borg1, Kimberly A. Dick1,2, Lars-Erik Wernersson3, Lars Samuelson1 and Claes Thelander1 (1Solid State Physics, Lund University, Box 118, SE-221 00 Lund, Sweden; 2Polymer & Materials Chemistry, Lund University, Box 124, SE-221 00, Lund, Sweden; 3Electrical & Information Technology, Lund University, Box 118, SE-221 00 Lund, Sweden) Electron-hole symmetry in GaSb/InAs core/shell nanowires |
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| ThOM14 | S. Takada1, M. Yamamoto1,2, S. Nakamura1, K. Watanabe1, C. Bauerle3, A. D. Wieck4, S. Tarucha1 (1Univ. of Tokyo, Japan; 2ERATO-JST, Saitama, Japan; 3CNRS and Universite Joseph Fourier, Grenoble, France; 4Ruhr-Universitat Bochum, Germany) Coherent control of a single electron in a tunnel-coupled wire driven by a surface acoustic wave | ||
| ThOM13 | L.W. Smith1, A.R. Hamilton2, K.J. Thomas3, M. Pepper3, I. Farrer1, J.P. Griffiths1, G.A.C. Jones1, D.A. Ritchie1 (1Cavendish Laboratory, Cambridge, UK; 2University of New South Wales, Australia; 3University College London, UK) Compressibility measurements of the 0.7 structure in a one-dimensional quantum wire |
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