@article{37318, abstract = {{Abstract The interaction between quantum light and matter is being intensively studied for systems that are enclosed in high-Q cavities which strongly enhance the light–matter coupling. Cavities with low Q-factors are generally given less attention due to their high losses that quickly destroy quantum systems. However, bad cavities can be utilized for several applications, where lower Q-factors are required, e.g., to increase the spectral width of the cavity mode. In this work, we demonstrate that low-Q cavities can be beneficial for preparing specific electronic steady states when certain quantum states of light are applied. We investigate the interaction between quantum light with various statistics and matter represented by a Λ-type three-level system in lossy cavities, assuming that cavity losses are the dominant loss mechanism. We show that cavity losses lead to non-trivial electronic steady states that can be controlled by the loss rate and the initial statistics of the quantum fields. We discuss the mechanism of the formation of such steady states on the basis of the equations of motion and present both analytical expressions and numerical simulations for such steady states.}}, author = {{Rose, Hendrik and Tikhonova, O V and Meier, Torsten and Sharapova, Polina}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{6}}, publisher = {{IOP Publishing}}, title = {{{Steady states of Λ-type three-level systems excited by quantum light with various photon statistics in lossy cavities}}}, doi = {{10.1088/1367-2630/ac74d8}}, volume = {{24}}, year = {{2022}}, } @article{22259, author = {{Roman-Rodriguez, V and Brecht, Benjamin and Srinivasan, K and Silberhorn, Christine and Treps, N and Diamanti, E and Parigi, V}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Continuous variable multimode quantum states via symmetric group velocity matching}}}, doi = {{10.1088/1367-2630/abef96}}, volume = {{23}}, year = {{2021}}, } @article{22770, author = {{Gil López, Jano and Santandrea, Matteo and Roland, Ganaël and Brecht, Benjamin and Eigner, Christof and Ricken, Raimund and Quiring, Viktor and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Improved non-linear devices for quantum applications}}}, doi = {{10.1088/1367-2630/ac09fd}}, year = {{2021}}, } @article{23473, author = {{Belobo, Didier Belobo and Meier, Torsten}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Approximate nonlinear wave solutions of the coupled two-component Gross–Pitaevskii equations with spin–orbit interaction}}}, doi = {{10.1088/1367-2630/abf3ed}}, volume = {{23}}, year = {{2021}}, } @article{25038, author = {{Massaro, Marcello and Meyer-Scott, Evan and Montaut, Nicola and Herrmann, Harald and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Improving SPDC single-photon sources via extended heralding and feed-forward control}}}, doi = {{10.1088/1367-2630/ab1ec3}}, year = {{2019}}, } @article{19513, author = {{Ma, Xuekai and Kartashov, Yaroslav Y and Gao, Tingge and Schumacher, Stefan}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{pc2-ressources}}, title = {{{Controllable high-speed polariton waves in a PT-symmetric lattice}}}, doi = {{10.1088/1367-2630/ab5a9b}}, year = {{2019}}, } @article{26224, author = {{Santandrea, Matteo and Stefszky, Michael and Roeland, Ganaël and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Characterisation of fabrication inhomogeneities in Ti:LiNbO3 waveguides}}}, doi = {{10.1088/1367-2630/ab5cb5}}, year = {{2019}}, } @article{26226, author = {{Santandrea, Matteo and Stefszky, Michael and Ansari, Vahid and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Fabrication limits of waveguides in nonlinear crystals and their impact on quantum optics applications}}}, doi = {{10.1088/1367-2630/aaff13}}, year = {{2019}}, } @article{26508, author = {{Nitsche, Thomas and Geib, Tobias and Stahl, Christoph and Lorz, Lennart and Cedzich, Christopher and Barkhofen, Sonja and Werner, Reinhard F and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Eigenvalue measurement of topologically protected edge states in split-step quantum walks}}}, doi = {{10.1088/1367-2630/ab12fa}}, year = {{2019}}, } @article{15851, author = {{Ma, Xuekai and Kartashov, Yaroslav Y and Gao, Tingge and Schumacher, Stefan}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Controllable high-speed polariton waves in a PT-symmetric lattice}}}, doi = {{10.1088/1367-2630/ab5a9b}}, volume = {{21}}, year = {{2019}}, } @article{9828, author = {{Tiedau, J and Shchesnovich, V S and Mogilevtsev, D and Ansari, V and Harder, G and Bartley, Tim and Korolkova, N and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Quantum state and mode profile tomography by the overlap}}}, doi = {{10.1088/1367-2630/aaad8a}}, year = {{2018}}, } @article{6540, abstract = {{Coherent phonons can greatly vary light–matter interaction in semiconductor nanostructures placed inside an optical resonator on a picosecond time scale. For an ensemble of quantum dots (QDs) as active laser medium, phonons are able to induce a large enhancement or attenuation of the emission intensity, as has been recently demonstrated. The physics of this coupled phonon–exciton–light system consists of various effects, which in the experiment typically cannot be clearly separated, in particular, due to the complicated sample structure a rather complex strain pulse impinges on the QD ensemble. Here we present a comprehensive theoretical study how the laser emission is affected by phonon pulses of various shapes as well as by ensembles with different spectral distributions of the QDs. This gives insight into the fundamental interaction dynamics of the coupled phonon–exciton–light system, while it allows us to clearly discriminate between two prominent effects: the adiabatic shifting of the ensemble and the shaking effect. This paves the way to a tailored laser emission controlled by phonons.}}, author = {{Wigger, Daniel and Czerniuk, Thomas and Reiter, Doris E and Bayer, Manfred and Kuhn, Tilmann}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, number = {{7}}, publisher = {{IOP Publishing}}, title = {{{Systematic study of the influence of coherent phonon wave packets on the lasing properties of a quantum dot ensemble}}}, doi = {{10.1088/1367-2630/aa78bf}}, volume = {{19}}, year = {{2017}}, } @article{38056, author = {{Mogilevtsev, D and Teo, Y S and Řeháček, J and Hradil, Z and Tiedau, J and Kruse, R and Harder, G and Silberhorn, Christine and Sanchez-Soto, L L}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{9}}, publisher = {{IOP Publishing}}, title = {{{Extracting the physical sector of quantum states}}}, doi = {{10.1088/1367-2630/aa81b3}}, volume = {{19}}, year = {{2017}}, } @article{13906, author = {{Sharapova, Polina and Luo, Kai Hong and Herrmann, Harald and Reichelt, Matthias and Meier, Torsten and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, number = {{12}}, publisher = {{IOP Publishing}}, title = {{{Toolbox for the design of LiNbO3-based passive and active integrated quantum circuits}}}, doi = {{10.1088/1367-2630/aa9033}}, volume = {{19}}, year = {{2017}}, } @article{26061, author = {{Sharapova, Polina and Luo, Kai Hong and Herrmann, Harald and Reichelt, Matthias and Meier, Torsten and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, number = {{12}}, publisher = {{IOP Publishing}}, title = {{{Toolbox for the design of LiNbO3-based passive and active integrated quantum circuits}}}, doi = {{10.1088/1367-2630/aa9033}}, volume = {{19}}, year = {{2017}}, } @article{26510, author = {{Hamilton, Craig S and Barkhofen, Sonja and Sansoni, Linda and Jex, Igor and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Driven discrete time quantum walks}}}, doi = {{10.1088/1367-2630/18/7/073008}}, year = {{2016}}, } @article{26519, author = {{Nitsche, Thomas and Elster, Fabian and Novotný, Jaroslav and Gábris, Aurél and Jex, Igor and Barkhofen, Sonja and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Quantum walks with dynamical control: graph engineering, initial state preparation and state transfer}}}, doi = {{10.1088/1367-2630/18/6/063017}}, year = {{2016}}, } @article{21037, author = {{Luo, Kai-Hong and Herrmann, Harald and Krapick, Stephan and Brecht, Benjamin and Ricken, Raimund and Quiring, Viktor and Suche, Hubertus and Sohler, Wolfgang and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Direct generation of genuine single-longitudinal-mode narrowband photon pairs}}}, doi = {{10.1088/1367-2630/17/7/073039}}, volume = {{17}}, year = {{2015}}, } @article{15858, author = {{Tse, Y C and Chan, Chris K P and Luk, M H and Kwong, N H and Leung, P T and Binder, R and Schumacher, Stefan}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{A population-competition model for analyzing transverse optical patterns including optical control and structural anisotropy}}}, doi = {{10.1088/1367-2630/17/8/083054}}, year = {{2015}}, } @article{16104, author = {{Bartley, Tim and Walmsley, Ian A}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Directly comparing entanglement-enhancing non-Gaussian operations}}}, doi = {{10.1088/1367-2630/17/2/023038}}, year = {{2015}}, } @article{26065, author = {{Luo, Kai Hong and Herrmann, Harald and Krapick, Stephan and Brecht, Benjamin and Ricken, Raimund and Quiring, Viktor and Suche, Hubertus and Sohler, Wolfgang and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Direct generation of genuine single-longitudinal-mode narrowband photon pairs}}}, doi = {{10.1088/1367-2630/17/7/073039}}, year = {{2015}}, } @article{13926, abstract = {{We predict a variety of composite quiescent and spinning two- and three-dimensional (2D and 3D) self-trapped modes in media with a repulsive nonlinearity whose local strength grows from center to periphery. These are 2D dipoles and quadrupoles, and 3D octupoles, as well as vortex–antivortex pairs and quadruplets. Unlike other multidimensional models, where such complex bound states either do not exist or are subject to strong instabilities, these modes are remarkably robust in the present setting. The results are obtained by means of numerical methods and analytically, using the Thomas–Fermi approximation. The predicted states may be realized in optical and matter-wave media with controllable cubic nonlinearities}}, author = {{Driben, Rodislav and Dror, Nir and Malomed, Boris A and Meier, Torsten}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Multipoles and vortex multiplets in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1088/1367-2630/17/8/083043}}, volume = {{17}}, year = {{2015}}, } @article{13932, abstract = {{We predict a variety of composite quiescent and spinning two- and three-dimensional (2D and 3D) self-trapped modes in media with a repulsive nonlinearity whose local strength grows from center to periphery. These are 2D dipoles and quadrupoles, and 3D octupoles, as well as vortex–antivortex pairs and quadruplets. Unlike other multidimensional models, where such complex bound states either do not exist or are subject to strong instabilities, these modes are remarkably robust in the present setting. The results are obtained by means of numerical methods and analytically, using the Thomas–Fermi approximation. The predicted states may be realized in optical and matter-wave media with controllable cubic nonlinearities}}, author = {{Driben, Rodislav and Dror, Nir and Malomed, Boris A and Meier, Torsten}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Multipoles and vortex multiplets in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1088/1367-2630/17/8/083043}}, volume = {{17}}, year = {{2015}}, } @article{22948, abstract = {{We predict a variety of composite quiescent and spinning two- and three-dimensional (2D and 3D) self-trapped modes in media with a repulsive nonlinearity whose local strength grows from center to periphery. These are 2D dipoles and quadrupoles, and 3D octupoles, as well as vortex–antivortex pairs and quadruplets. Unlike other multidimensional models, where such complex bound states either do not exist or are subject to strong instabilities, these modes are remarkably robust in the present setting. The results are obtained by means of numerical methods and analytically, using the Thomas–Fermi approximation. The predicted states may be realized in optical and matter-wave media with controllable cubic nonlinearities}}, author = {{Driben, Rodislav and Dror, Nir and Malomed, Boris A. and Meier, Torsten}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Multipoles and vortex multiplets in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1088/1367-2630/17/8/083043}}, volume = {{17}}, year = {{2015}}, } @article{26512, author = {{Weich, T and Barkhofen, Sonja and Kuhl, U and Poli, C and Schomerus, H}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Formation and interaction of resonance chains in the open three-disk system}}}, doi = {{10.1088/1367-2630/16/3/033029}}, year = {{2014}}, } @article{31297, author = {{Weich, Tobias and Barkhofen, Sonja and Kuhl, U and Poli, C and Schomerus, H}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{3}}, publisher = {{IOP Publishing}}, title = {{{Formation and interaction of resonance chains in the open three-disk system}}}, doi = {{10.1088/1367-2630/16/3/033029}}, volume = {{16}}, year = {{2014}}, } @article{38091, author = {{Clausen, C and Bussières, F and Tiranov, A and Herrmann, Harald and Silberhorn, Christine and Sohler, W and Afzelius, M and Gisin, N}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{9}}, publisher = {{IOP Publishing}}, title = {{{A source of polarization-entangled photon pairs interfacing quantum memories with telecom photons}}}, doi = {{10.1088/1367-2630/16/9/093058}}, volume = {{16}}, year = {{2014}}, } @article{22957, abstract = {{We show, by means of numerical and analytical methods, that media with a repulsive nonlinearity which grows from the center to the periphery support a remarkable variety of previously unknown complex stationary and dynamical three-dimensional (3D) solitary-wave states. Peanut-shaped modulation profiles give rise to vertically symmetric and antisymmetric vortex states, and novel stationary hybrid states, built of top and bottom vortices with opposite topological charges, as well as robust dynamical hybrids, which feature stable precession of a vortex on top of a zero-vorticity soliton. The analysis reveals stability regions for symmetric, antisymmetric, and hybrid states. In addition, bead-shaped modulation profiles give rise to the first example of exact analytical solutions for stable 3D vortex solitons. The predicted states may be realized in media with a controllable cubic nonlinearity, such as Bose–Einstein condensates.}}, author = {{Driben, Rodislav and Kartashov, Yaroslav V. and Malomed, Boris A. and Meier, Torsten and Torner, Lluis}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Three-dimensional hybrid vortex solitons}}}, doi = {{10.1088/1367-2630/16/6/063035}}, volume = {{16}}, year = {{2014}}, } @article{21042, author = {{Christ, Andreas and Brecht, Benjamin and Mauerer, Wolfgang and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Theory of quantum frequency conversion and type-II parametric down-conversion in the high-gain regime}}}, doi = {{10.1088/1367-2630/15/5/053038}}, volume = {{15}}, year = {{2013}}, } @article{21044, author = {{Krapick, S and Herrmann, Harald and Quiring, V and Brecht, Benjamin and Suche, H and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{An efficient integrated two-color source for heralded single photons}}}, doi = {{10.1088/1367-2630/15/3/033010}}, volume = {{15}}, year = {{2013}}, } @article{7294, author = {{Nichele, F and Komijani, Y and Hennel, S and Gerl, C and Wegscheider, W and Reuter, Dirk and Wieck, A D and Ihn, T and Ensslin, K}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, number = {{3}}, publisher = {{IOP Publishing}}, title = {{{Aharonov–Bohm rings with strong spin–orbit interaction: the role of sample-specific properties}}}, doi = {{10.1088/1367-2630/15/3/033029}}, volume = {{15}}, year = {{2013}}, } @article{40160, author = {{Kruse, R and Katzschmann, F and Christ, A and Schreiber, A and Wilhelm, S and Laiho, K and Gábris, A and Hamilton, C S and Jex, I and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{8}}, publisher = {{IOP Publishing}}, title = {{{Spatio-spectral characteristics of parametric down-conversion in waveguide arrays}}}, doi = {{10.1088/1367-2630/15/8/083046}}, volume = {{15}}, year = {{2013}}, } @article{26355, author = {{Sperling, Jan and Vogel, W}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Entanglement quasiprobabilities of squeezed light}}}, doi = {{10.1088/1367-2630/14/5/055026}}, year = {{2012}}, } @article{40170, author = {{Christ, Andreas and Lupo, Cosmo and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{8}}, publisher = {{IOP Publishing}}, title = {{{Exponentially enhanced quantum communication rate by multiplexing continuous-variable teleportation}}}, doi = {{10.1088/1367-2630/14/8/083007}}, volume = {{14}}, year = {{2012}}, } @article{40167, author = {{Laiho, Kaisa and Avenhaus, Malte and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{10}}, publisher = {{IOP Publishing}}, title = {{{Characteristics of displaced single photons attained via higher order factorial moments}}}, doi = {{10.1088/1367-2630/14/10/105011}}, volume = {{14}}, year = {{2012}}, } @article{21045, author = {{Brecht, Benjamin and Eckstein, Andreas and Christ, Andreas and Suche, Hubertus and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{From quantum pulse gate to quantum pulse shaper—engineered frequency conversion in nonlinear optical waveguides}}}, doi = {{10.1088/1367-2630/13/6/065029}}, volume = {{13}}, year = {{2011}}, } @article{40183, author = {{Christ, Andreas and Laiho, Kaisa and Eckstein, Andreas and Cassemiro, Katiúscia N and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{3}}, publisher = {{IOP Publishing}}, title = {{{Probing multimode squeezing with correlation functions}}}, doi = {{10.1088/1367-2630/13/3/033027}}, volume = {{13}}, year = {{2011}}, } @article{40190, author = {{Rohde, Peter P and Schreiber, Andreas and Štefaňák, Martin and Jex, Igor and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{1}}, publisher = {{IOP Publishing}}, title = {{{Multi-walker discrete time quantum walks on arbitrary graphs, their properties and their photonic implementation}}}, doi = {{10.1088/1367-2630/13/1/013001}}, volume = {{13}}, year = {{2011}}, } @article{7974, author = {{Chen, J C H and Klochan, O and Micolich, A P and Hamilton, A R and Martin, T P and Ho, L H and Zülicke, U and Reuter, Dirk and Wieck, A D}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, number = {{3}}, publisher = {{IOP Publishing}}, title = {{{Observation of orientation- andk-dependent Zeeman spin-splitting in hole quantum wires on (100)-oriented AlGaAs/GaAs heterostructures}}}, doi = {{10.1088/1367-2630/12/3/033043}}, volume = {{12}}, year = {{2010}}, } @article{7992, author = {{Rizo, P J and Pugzlys, A and Slachter, A and Denega, S Z and Reuter, Dirk and Wieck, A D and van Loosdrecht, P H M and van der Wal, C H}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, number = {{11}}, publisher = {{IOP Publishing}}, title = {{{Optical probing of spin dynamics of two-dimensional and bulk electrons in a GaAs/AlGaAs heterojunction system}}}, doi = {{10.1088/1367-2630/12/11/113040}}, volume = {{12}}, year = {{2010}}, } @article{40195, author = {{Cassemiro, Katiúscia N and Laiho, Kaisa and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{11}}, publisher = {{IOP Publishing}}, title = {{{Accessing the purity of a single photon by the width of the Hong–Ou–Mandel interference}}}, doi = {{10.1088/1367-2630/12/11/113052}}, volume = {{12}}, year = {{2010}}, } @article{40199, author = {{Brańczyk, Agata M and Ralph, T C and Helwig, Wolfram and Silberhorn, Christine}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{6}}, publisher = {{IOP Publishing}}, title = {{{Optimized generation of heralded Fock states using parametric down-conversion}}}, doi = {{10.1088/1367-2630/12/6/063001}}, volume = {{12}}, year = {{2010}}, } @article{3094, abstract = {{We demonstrate for the first time the feasibility of free space quantum key distribution with continuous variables under real atmospheric conditions. More specifically, we transmit coherent polarization states over a 100 m free space channel on the roof of our institute's building. In our scheme, signal and local oscillator (LO) are combined in a single spatial mode, which auto-compensates atmospheric fluctuations and results in an excellent interference. Furthermore, the LO acts as a spatial and spectral filter, thus allowing unrestrained daylight operation.}}, author = {{Elser, D. and Bartley, Tim and Heim, B. and Wittmann, Ch and Sych, D. and Leuchs, G.}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, number = {{4}}, pages = {{045014}}, title = {{{Feasibility of free space quantum key distribution with coherent polarization states}}}, year = {{2009}}, } @article{8618, author = {{Scheibner, R and König, M and Reuter, Dirk and Wieck, A D and Gould, C and Buhmann, H and Molenkamp, L W}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Quantum dot as thermal rectifier}}}, doi = {{10.1088/1367-2630/10/8/083016}}, year = {{2008}}, } @article{16648, author = {{Padberg, Kathrin and Hauff, Thilo and Jenko, Frank and Junge, Oliver}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, pages = {{400--400}}, title = {{{Lagrangian structures and transport in turbulent magnetized plasmas}}}, doi = {{10.1088/1367-2630/9/11/400}}, year = {{2007}}, } @article{8672, author = {{Bominaar-Silkens, I M A and Schaapman, M R and Zeitler, U and Christianen, P C M and Maan, J C and Reuter, Dirk and Wieck, A D and Schuh, D and Bichler, M}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, pages = {{315--315}}, title = {{{Magnetization of bilayer two-dimensional electron systems}}}, doi = {{10.1088/1367-2630/8/12/315}}, year = {{2006}}, }