Quantum leaps in small steps - pp2 - 3

Tommaso Calarco, Philippe Grangier, Andreas Wallraff & Peter Zoller

doi:10.1038/nphys818

Full Text - Quantum leaps in small steps | PDF (125 KB) - Quantum leaps in small steps

Quantum non-demolition detection of strongly correlated systems - pp50 - 54

Kai Eckert, Oriol Romero-Isart, Mirta Rodriguez, Maciej Lewenstein, Eugene S. Polzik & Anna Sanpera

doi:10.1038/nphys776

Full Text - Quantum non-demolition detection of strongly correlated systems | PDF (605 KB) - Quantum non-demolition detection of strongly correlated systems

Quantum mechanics: Dynamics of entanglement - pp97 - 98

Christian Roos

doi:10.1038/nphys847

Full Text - Quantum mechanicsDynamics of entanglement | PDF (170 KB) - Quantum mechanicsDynamics of entanglement

Evolution equation for quantum entanglement - pp99 - 102

Thomas Konrad, Fernando de Melo, Markus Tiersch, Christian Kasztelan, Adriano Aragão & Andreas Buchleitner

doi:10.1038/nphys885

Full Text - Evolution equation for quantum entanglement | PDF (256 KB) - Evolution equation for quantum entanglement

See also: News and Views by Roos

Magnetic flux periodicity of h/e in superconducting loops - pp112 - 115

F. Loder, A. P. Kampf, T. Kopp, J. Mannhart, C. W. Schneider & Y. S. Barash

doi:10.1038/nphys813

Full Text - Magnetic flux periodicity of h/e in superconducting loops | PDF (535 KB) - Magnetic flux periodicity of h/e in superconducting loops | Supplementary information - Magnetic flux periodicity of h/e in superconducting loops

Quantum magnetism and criticality - pp173 - 185

Subir Sachdev

doi:10.1038/nphys894

Full Text - Quantum magnetism and criticality | PDF (802 KB) - Quantum magnetism and criticality

Quantum criticality in heavy-fermion metals - pp186 - 197

Philipp Gegenwart, Qimiao Si & Frank Steglich

doi:10.1038/nphys892

Full Text - Quantum criticality in heavy-fermion metals | PDF (571 KB) - Quantum criticality in heavy-fermion metals

Bose–Einstein condensation in magnetic insulators - pp198 - 204

Thierry Giamarchi, Christian Rüegg & Oleg Tchernyshyov

doi:10.1038/nphys893

Full Text - Bose–Einstein condensation in magnetic insulators | PDF (576 KB) - Bose–Einstein condensation in magnetic insulators

Quantum mechanical complementarity probed in a closed-loop Aharonov–Bohm interferometer - pp205 - 209

Dong-In Chang, Gyong Luck Khym, Kicheon Kang, Yunchul Chung, Hu-Jong Lee, Minky Seo, Moty Heiblum, Diana Mahalu & Vladimir Umansky

doi:10.1038/nphys854

Full Text - Quantum mechanical complementarity probed in a closed-loop Aharonov–Bohm interferometer | PDF (4,671 KB) - Quantum mechanical complementarity probed in a closed-loop Aharonov–Bohm interferometer

Hyperentanglement: Breaking the communication barrier - pp268 - 269

Stephen P. Walborn

doi:10.1038/nphys927

Full Text - HyperentanglementBreaking the communication barrier | PDF (1,232 KB) - HyperentanglementBreaking the communication barrier

Topological order: How spin splits the electron - pp270 - 271

Joel Moore

doi:10.1038/nphys925

Full Text - Topological orderHow spin splits the electron | PDF (228 KB) - Topological orderHow spin splits the electron

Spin qubits: A host with many facets - p272

Andreas Trabesinger

doi:10.1038/nphys938

Full Text - Spin qubitsA host with many facets | PDF (354 KB) - Spin qubitsA host with many facets

Cavity QED: Signs of anharmonicity - pp346 - 347

Howard Carmichael

doi:10.1038/nphys953

Full Text - Cavity QEDSigns of anharmonicity | PDF (210 KB) - Cavity QEDSigns of anharmonicity

History of quantum mechanics: The path to agreement - p349

Andreas Trabesinger

doi:10.1038/nphys950

Full Text - History of quantum mechanicsThe path to agreement | PDF (230 KB) - History of quantum mechanicsThe path to agreement

Atomic dark solitons: Quantum canaries learn to fly - pp437 - 438

James Anglin

doi:10.1038/nphys980

Full Text - Atomic dark solitonsQuantum canaries learn to fly | PDF (225 KB) - Atomic dark solitonsQuantum canaries learn to fly

Surface physics: Electron wrangling in quantum corrals - pp443 - 444

Eric J. Heller

doi:10.1038/nphys991

Full Text - Surface physicsElectron wrangling in quantum corrals | PDF (170 KB) - Surface physicsElectron wrangling in quantum corrals

Single-atom gating of quantum-state superpositions - pp454 - 458

Christopher R. Moon, Christopher P. Lutz & Hari C. Manoharan

doi:10.1038/nphys930

Full Text - Single-atom gating of quantum-state superpositions | PDF (1,007 KB) - Single-atom gating of quantum-state superpositions | Supplementary information - Single-atom gating of quantum-state superpositions

See also: News and Views by Heller

Towards fault-tolerant quantum computing with trapped ions - pp463 - 466

Jan Benhelm, Gerhard Kirchmair, Christian F. Roos & Rainer Blatt

doi:10.1038/nphys961

Full Text - Towards fault-tolerant quantum computing with trapped ions | PDF (345 KB) - Towards fault-tolerant quantum computing with trapped ions

Anyonic interferometry and protected memories in atomic spin lattices - pp482 - 488

Liang Jiang, Gavin K. Brennen, Alexey V. Gorshkov, Klemens Hammerer, Mohammad Hafezi, Eugene Demler, Mikhail D. Lukin & Peter Zoller

doi:10.1038/nphys943

Full Text - Anyonic interferometry and protected memories in atomic spin lattices | PDF (736 KB) - Anyonic interferometry and protected memories in atomic spin lattices | Supplementary information - Anyonic interferometry and protected memories in atomic spin lattices

Probing quantum and thermal noise in an interacting many-body system - pp489 - 495

S. Hofferberth, I. Lesanovsky, T. Schumm, A. Imambekov, V. Gritsev, E. Demler & J. Schmiedmayer

doi:10.1038/nphys941

Full Text - Probing quantum and thermal noise in an interacting many-body system | PDF (525 KB) - Probing quantum and thermal noise in an interacting many-body system

Optomechanics: Push towards the quantum limit - pp513 - 514

Florian Marquardt

doi:10.1038/nphys1006

Full Text - OptomechanicsPush towards the quantum limit | PDF (437 KB) - OptomechanicsPush towards the quantum limit

Willis Lamb: Shift to quantum electrodynamics - p518

Alison Wright

doi:10.1038/nphys1004

Full Text - Willis LambShift to quantum electrodynamics | PDF (172 KB) - Willis LambShift to quantum electrodynamics

Superconducting qubits: Atomic physics with a circuit - pp589 - 590

Franco Nori

doi:10.1038/nphys1044

Full Text - Superconducting qubitsAtomic physics with a circuit | PDF (180 KB) - Superconducting qubitsAtomic physics with a circuit

Sisyphus cooling and amplification by a superconducting qubit - pp612 - 616

M. Grajcar, S. H. W. van der Ploeg, A. Izmalkov, E. Il'ichev, H.-G. Meyer, A. Fedorov, A. Shnirman & Gerd Schön

doi:10.1038/nphys1019

Full Text - Sisyphus cooling and amplification by a superconducting qubit | PDF (2,825 KB) - Sisyphus cooling and amplification by a superconducting qubit

See also: News and Views by Nori

Efficient state transfer in an ultracold dense gas of heteronuclear molecules - pp622 - 626

S. Ospelkaus, A. Pe'er, K.-K. Ni, J. J. Zirbel, B. Neyenhuis, S. Kotochigova, P. S. Julienne, J. Ye & D. S. Jin

doi:10.1038/nphys997

Full Text - Efficient state transfer in an ultracold dense gas of heteronuclear molecules | PDF (313 KB) - Efficient state transfer in an ultracold dense gas of heteronuclear molecules

Localization and loss of coherence in molecular double-slit experiments - pp649 - 655

Björn Zimmermann, Daniel Rolles, Burkhard Langer, Rainer Hentges, Markus Braune, Slobodan Cvejanovic, Oliver Gener, Franz Heiser, Sanja Korica, Toralf Lischke, Axel Reinköster, Jens Viefhaus, Reinhard Dörner, Vincent McKoy & Uwe Becker

doi:10.1038/nphys993

Full Text - Localization and loss of coherence in molecular double-slit experiments | PDF (1,281 KB) - Localization and loss of coherence in molecular double-slit experiments | Supplementary information - Localization and loss of coherence in molecular double-slit experiments

Simulating a quantum magnet with trapped ions - pp757 - 761

A. Friedenauer, H. Schmitz, J. T. Glueckert, D. Porras & T. Schaetz

doi:10.1038/nphys1032

Full Text - Simulating a quantum magnet with trapped ions | PDF (306 KB) - Simulating a quantum magnet with trapped ions

Electrically driven single-electron spin resonance in a slanting Zeeman field - pp776 - 779

M. Pioro-Ladrière, T. Obata, Y. Tokura, Y.-S. Shin, T. Kubo, K. Yoshida, T. Taniyama & S. Tarucha

doi:10.1038/nphys1053

Full Text - Electrically driven single-electron spin resonance in a slanting Zeeman field | PDF (443 KB) - Electrically driven single-electron spin resonance in a slanting Zeeman field | Supplementary information - Electrically driven single-electron spin resonance in a slanting Zeeman field

Ultrafast control of donor-bound electron spins with single detuned optical pulses - pp780 - 784

Kai-Mei C. Fu, Susan M. Clark, Charles Santori, Colin R. Stanley, M. C. Holland & Yoshihisa Yamamoto

doi:10.1038/nphys1052

Full Text - Ultrafast control of donor-bound electron spins with single detuned optical pulses | PDF (431 KB) - Ultrafast control of donor-bound electron spins with single detuned optical pulses

High-sensitivity diamond magnetometer with nanoscale resolution - pp810 - 816

J. M. Taylor, P. Cappellaro, L. Childress, L. Jiang, D. Budker, P. R. Hemmer, A. Yacoby, R. Walsworth & M. D. Lukin

doi:10.1038/nphys1075

Full Text - High-sensitivity diamond magnetometer with nanoscale resolution | PDF (1,048 KB) - High-sensitivity diamond magnetometer with nanoscale resolution