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Showing 1–13 of 13 results
Advanced filters: Author: Klaus Mølmer Clear advanced filters

  • Simultaneous spin squeezing and the detection of dynamic fields is challenging as entanglement generation and signal interrogation often interfere. An experiment now demonstrates stable spin squeezing and field tracking in a hot atomic ensemble.

    • Junlei Duan
    • Zhiwei Hu
    • Yanhong Xiao
    Research
    Nature Physics
    Volume: 21, P: 909-915

  • Hybrid systems offer attractive possibilities for quantum information processing. Experiments show how off-resonant coupling to a microwave resonator can prolong the storage of photons inside a large collection of precessing spins.

    • Klaus Mølmer
    News & Views
    Nature Physics
    Volume: 10, P: 707-708

  • Spin systems have now been found that have lifetimes of up to six hours. They could be used to build quantum-communication networks and, if optical transmission fails, could even be shipped as a 'quantum memory stick'. See Letter p.177

    • John J. L. Morton
    • Klaus Mølmer
    News & Views
    Nature
    Volume: 517, P: 153-154

  • Interacting quantum systems near criticality have been proposed as potential probes for quantum metrology. An experiment with Rydberg atoms now proves the enhanced sensitivity of critical many-body systems to small variations in external parameters.

    • Dong-Sheng Ding
    • Zong-Kai Liu
    • Charles S. Adams
    Research
    Nature Physics
    Volume: 18, P: 1447-1452

  • If we have access to information about a quantum system both before and after a measurement, we are not in the usual remit of the Heisenberg uncertainty principle anymore. Here, the authors demonstrate that, in such a scenario, one can retrodict position and momentum measurements without being limited by HUR.

    • Han Bao
    • Shenchao Jin
    • Yanhong Xiao
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-7

  • Quantum gates on trapped ions may be quicker and more reliable owing to squeezing of their vibrational motion. A threefold drop in operation time shows potential for applications in quantum technologies.

    • Klaus Mølmer
    News & Views
    Nature Physics
    Volume: 17, P: 876-877

  • A squeezed collective state of 1011 rubidium atoms is generated by quantum non-demolition measurements, and the accuracy of the estimation of their collective spin is improved using past quantum state retrodiction.

    • Han Bao
    • Junlei Duan
    • Yanhong Xiao
    Research
    Nature
    Volume: 581, P: 159-163

  • We propose a multi-particle ‘which-path’ gedanken experiment with a quantum detector. Contrary to conventional ‘which-path’ experiments, the detector maintains its quantum state during interactions with the particles. We show how such interactions can create an interference pattern that vanishes on average, as in conventional ‘which-path’ schemes, but contains hidden many-body quantum correlations. Measuring the state of the quantum detector projects the joint-particle wavefunction into highly entangled states, such as GHZ’s. Conversely, measuring the particles projects the detector wavefunction into desired states, such as Schrodinger-cat or GKP states for a harmonic-oscillator detector, e.g., a photonic cavity. Our work thus opens a new path to the creation and exploration of many-body quantum correlations in systems not often associated with these phenomena, such as atoms in waveguide QED and free electrons in transmission electron microscopy.

    • Ron Ruimy
    • Offek Tziperman
    • Ido Kaminer
    ResearchOpen Access
    npj Quantum Information
    Volume: 10, P: 1-11

  • The crowd sourcing and gamification of a problem in quantum computing are described; human players succeed in solving the problem where purely numerical optimization fails, providing insight into, and a starting point for, strategies for optimization.

    • Jens Jakob W. H. Sørensen
    • Mads Kock Pedersen
    • Jacob F. Sherson
    Research
    Nature
    Volume: 532, P: 210-213