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Posters at the NCCR QSIT Meeting 2011

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24.5.2013
QSIT Colloquium
Hari C. Manoharan >>

6.6.2013
Next Lunch Seminar
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Junior Meeting 2013

Passugg, GR

June 11 - 14, 2013

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April 2013

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National Centres of Competence in Research (NCCRs) are a research instrument of the Swiss National Science Foundation.

The answers to the posterquiz are found here >>

1.	Measurement of Statistical Nuclear Spin Polarization in an Ensemble of Self-Assembled Quantum Dots Phani Peddibhotla, Fei Xue, Dennis Weber, Michele Montinaro & Martino Poggio Poggio Lab: Spin, Quantum Electronics, Nanomechanics, University of Basel
2.	Quantum transport in carbon nanotube and nanowire hybrid devices H. Aurich, A. Baumgartner, L. Hofstetter, S. Nau, J. Samm, J. Schindele, C. Schönenberger, and M. Weiss Nanoelectronics Group, University of Basel
3.	Graphene: the ultimate two-dimensional conductor M. Braeuninger, M. Calame, W. Fu, F. Freitag, C. Nef, C. Schoenenberger, J. Trbovic, and M. Weiss  Nanoelectronics Group, University of Basel
4.	Accuracy of the mesoscopic capacitor as a single electron source Mathias Albert, Christian Flindt and Markus Buttiker Département de Physique Théorique, Université de Genève
5.	Transport through graphene on SrTiO3 substrates Nuno Couto Quantum Electronics Group, University of Geneva
6.	Fabrication of suspended graphene Dong Keun Ki Quantum Electronics Group, University of Geneva
7.	A novel geometry for nuclear magnetic resonance force microscopy Fei Xue, Phani Peddibhotla, Dennis Weber, Michele Montinaro, and Martino Poggio Poggio Lab: Spin, Quantum Electronics, Nanomechanics, University of Basel
8.	Spin-orbit interaction in semiconductor quantum wells and the persistent spin helix M. P. Walser,  M. Studer, G. Salis, W. Wegscheider, and K. Ensslin IBM Research, Zurich & Adv. Semiconductor Quantum Materials, ETH Zurich & Nanophysics Group, ETH Zurich
9.	The thermodynamic meaning of negative entropy Lidia del Rio, Johan Aberg, Renato Renner, Oscar Dahlsten, and Vlatko Vedral Quantum Information Theory Group, ETH Zurich
10.	Multiparticle Entanglement on an Atom Chip Caspar Ockeloen, Max F. Riedel, Pascal Böhi, Roman Schmied, and Philipp Treutlein Quantum Atom Optics Lab, University of Basel
11.	Manipulating Rydberg States of Atoms and Molecules Ch. Seiler, S. D. Hogan and F. Merkt Laboratory of Physical Chemistry, ETH Zurich
12.	Multistage Zeeman Deceleration of Paramagnetic Atoms A. W. Wiederkehr, M. Motsch and F. Merkt Laboratory of Physical Chemistry, ETH Zurich
13.	Helical modes in carbon nanotubes generated by strong electric fields Jelena Klinovaja, Manuel J. Schmidt, Bernd Braunecker, and Daniel Loss Department of Physics, University of Basel
14.	Quantum many-body physics with ultracold atoms I Kristian Baumann, Jean-Philippe Brantut, Ferdinand Brennecke, Tobias Donner, Daniel Greif, Gregor Jotzu, Jakob Meineke, Rafael Mottl, Torben Müller, David Stadler, Thomas Uehlinger, Leticia Tarruell, and Tilman Esslinger Quantum Optics Group, ETH Zurich
15.	Quantum many-body physics with ultracold atoms II Kristian Baumann, Jean-Philippe Brantut, Ferdinand Brennecke, Tobias Donner, Daniel Greif, Gregor Jotzu, Jakob Meineke, Rafael Mottl, Torben Müller, David Stadler, Thomas Uehlinger, Leticia Tarruell, and Tilman Esslinger Quantum Optics Group, ETH Zurich
16.	Quantum memory coupled to cavity modes Fabio L. Pedrocchi, Stefano Chesi, and Daniel Loss Department of Physics, University of Basel
17.	Quantum-state control of translationally cold molecular ions in ion traps Xin Tong, Matthias Germann, and Stefan Willitsch Department of Chemistry, University of Basel
18.	Hole spin coherence in a quantum dot Julien Houel Department of Physics, University of Basel
19.	Ion trap technologies for investigations of open quantum systems D. Kienzler, B. Keitch, H-Y Lo, and J. P. Home Trapped Ion Quantum Information Group, ETH Zurrich
20.	Attractive Impurities in a Quantum Wire: Bound States, Interference, and Fano resonances David Oehri, Fabian Hassler, Gordey Lesovik, and Gianni Blatter Institute for Theoretical Physics, ETH Zurich
21.	Nuclear Spin Relaxation in an All-Electrical Lateral Spin Transport Device D. Kölbl (1), A. Fuhrer (2), G. Salis (2), S. F. Alvarado (2), D. M. Zumbuhl (1) (1) Swiss Nanoscience Institute and Physics Department, University of Basel (2) IBM Research Zurich
22.	Inverted GaAs 2D Electron Gas in close proximity to InAs Quantum Dots F. Dettwiler (1), P. Fallahi (2), A. Badolato (2), A. Imamoglu (2), D. Schuh (3), W. Wegscheider (2,3), and D. M. Zumbuhl (1) (1) Swiss Nanoscience Institute and Physics Department, University of Basel (2) Department of Physics, ETH Zurich (3) Institute for Experimental and Applied Physics, University of Regensburg
23.	Observation of photon blockade in quantum dot cavity-QED Andreas Reinhard, Thomas Volz, and Atac Imamoglu Quantum Photonics Group, ETH Zurich
24.	A coupled quantum dot laser amplifier: raman transition between singlet and triplet states J. M. Elzerman, K. M. Weiss,  J. Miguel-Sanchez, und A. Imamoglu. Quantum Photonics Group, ETH Zurich
25.	Quantum control of interacting qubits V.M. Stojanovic, R. Heule, D. Burgarth, and C. Bruder Department of Physics, University of Basel
26.	A single fermion in a Bose Josephson Junction M. Rinck and C. Bruder Department of Physics, University of Basel
27.	Topological origin of subgap conductance in insulating bilayer graphene Jian Li, Ivar Martin, Markus Buttiker, Alberto F. Morpurgo Département de Physique Théorique, Université de Genève
28.	What numerics can tell us about ultracold atoms Peter Anders, Sebastiano Pilati, Lode Pollet, and Matthias Troyer Institute of Theoretical Physics, ETH Zurich
29.	Tensor network states B. Bauer (1), P. Corboz (1,2), M. Dolfi (1), R. Orus (3), G. Vidal (4), M. Troyer (1) (1) Institute of Theoretical Physics, ETH Zurich (2) Institute of Theoretical Physics, EPF Lausanne (3) Max-Planck-Institut für Quantenoptik, Garching, Germany (4) School of Mathematics and Physics, The University of Queensland, Australia
30.	The Uncertainty Principle in the Presence of Quantum Memory Mario Berta, Matthias Christandl, Roger Colbeck, Joseph M. Renes, Renato Renner, and Marco Tomamichel Institute of Theoretical Physics, ETH Zurich
31.	Nanodevices based on Ga[Al]As heterostructures Stephan Schnez, Clemens Rössler, and Bruno Küng Nanophysics Group, ETH Zurich
32.	Transport in graphene quantum dots J. Güttinger, D. Bischoff, S. Dröscher, A. Jacobsen, F. Molitor, T. Ihn, K. Ensslin Nanophysics Group, ETH Zurich
33.	Entangling protocols for two qubits in circuit QED L. Steffen, M. Baur, A. Fedorov, J. M. Fink, K. Pakrouski, W. Zeng and A. Wallraff Quantum Device Lab, ETH Zurich
34.	Experimental State Tomography of Itinerant Single Microwave Photons C. Eichler, D. Bozyigit, C. Lang, L. Steffen, J. M. Fink, and A. Wallraff Quantum Device Lab, ETH Zurich
35.	Hybrid Cavity QED with Atoms and Circuits T. Thiele, C. Gross, P. Allmendinger, S. Marx, J. Agner, H. Schmutz, S. Filipp, S. D. Hogan, F. Merkt, A. Wallraff Molecular Physics and Spectroscopy & Quantum Device Labs, ETH Zurich
36.	Localization of Toric Code Defects Cyril Stark (1,2), Atac Imamoglu (2) and Renato Renner (1) (1) Quantum Information Theory Group, ETH Zürich (2) Quantum Photonics Group, ETH Zürich
37.	Secure High Speed Communication based on Quantum Key Distribution N. Walenta, C. Lim, and H. Zbinden Group of applied Phyxiscs, University of Geneva
38.	Finite key analysis of Coherent One-Way protocol C. Lim, N. Walenta, and H. Zbinden Group of applied Phyxiscs, University of Geneva
39.	Towards an AFC memory for light with spin wave storage in Eu3+:Y2SiO5 N. Timoney, B. Lauritzen, M. Afzelius, H. de Riedmatten, and N. Gisin Group of applied Phyxiscs, University of Geneva
40.	Optomechanical coupling of ultracold atoms and a membrane Maria Korppi, Andreas Joeckel, Stephan Camerer, David Hunger, and Philipp Treutlein Quantum Atom Optics Lab, University of Basel
41.	Strongly correlated photons in coupled QED cavities S. Schmidt (1), H. E. Tureci (2,3), D. Gerace (4), A. Houck (3), G. Blatter (1) (1) Institute for Theoretical Physics, ETH Zurich, Switzerland (2) Institute for Quantum Electronics, ETH Zurich, Switzerland (3) Department of Electrical Engineering, Princeton University, USA (4) Department of Physics, Pavia University, Italy.
42.	Ordered Pyramidal Quantum Dots for Nanophotonics Applications A. Mohan, P. Gallo, M. Felici, B. Dwir, A. Rudra, E. Kapon Laboratory of Physics of Nanostructures EPFL, Switzerland J. Faist Institute for Quantum Electronics ETH Zurich Switzerland
43.	Current quantization in an optically-driven electron pump based on self-assembled quantum dots L. Nevou, V. Liverini, P Friedli, F. Castellano, A. Bismuto, H. Sigg, F. Gramm, E. Müller and J. Faist Institute for Quantum Electronics ETH Zurich Switzerland
44.	Strong coupling regime and plasmon-polaritons in parabolic semiconductor quantum wells Markus Geiser,∗ Giacomo Scalari, Fabrizio Castellano, Christoph Walther, Mattias Beck, Laurent Nevou, and Jerome Faist Institute for Quantum Electronics ETH Zurich Switzerland
45.	Novel semiconductor materials: fabrication and transport experiments F. Nichele (1), Y. Komijani (1), M. Csontos (1), D. Reuter (2), A. D. Wieck (2), T. Choi (1), N. Pascher (1), P. Rolleau (1), S. Schnez (1), E. Gini (3), T. Ihn (1), and K. Ensslin(1) (1) Laboratory for Solid State Physics, ETH Zurich (2) Angewandte Festkörperphysik, Ruhr-Universität Bochum, Germany (3) FIRST Center for Micro- and Nanosciences, ETH Zurich
46.	Using High Frequencies to Probe Semiconductor Nanostructures Tobias Frey, Sarah Hellmüller, Peter Leek, Thomas Müller, Thomas Ihn, Klaus Ensslin, and Andreas Wallraff Nanophysics group & Quantum Device Lab, ETH Zurich

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