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Showing 1–14 of 14 results
Advanced filters: Author: Darrick Chang Clear advanced filters

  • Active control of optical fields at the nanoscale is difficult to achieve. Here, the authors fabricate an on-chip graphene NEMS suspended a few tens of nanometres above nitrogen vacancy centres and demonstrate electromechanical control of the photons emitted by electrostatic tuning of the graphene NEMS position.

    • Antoine Reserbat-Plantey
    • Kevin G. Schädler
    • Frank H. L. Koppens
    ResearchOpen Access
    Nature Communications
    Volume: 7, P: 1-6

  • Nanocavity optomechanical systems can exhibit strong dynamical back-action between mechanical motion and the cavity light field. Here, optical control of mechanical motion within two different nanocavity structures is demonstrated. A form of optically controlled mechanical transparency is also demonstrated, which is analogous to electromagnetically induced transparency.

    • Qiang Lin
    • Jessie Rosenberg
    • Oskar Painter
    Research
    Nature Photonics
    Volume: 4, P: 236-242

  • The dorsal peduncular area of the mouse brain functions as a network hub that integrates diverse cortical and thalamic inputs to regulate neuroendocrine and autonomic responses.

    • Houri Hintiryan
    • Muye Zhu
    • Hong-Wei Dong
    ResearchOpen Access
    Nature
    P: 1-15

  • Cold atoms coupled to photonic crystals constitute a platform for exploring many-body physics. Here the authors study the effect of coupling between the atomic internal degrees of freedom and motion, showing that such systems can realize extreme spin-orbital coupling and uncover a rich phase diagram.

    • Marco T. Manzoni
    • Ludwig Mathey
    • Darrick E. Chang
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-9

  • Natural gas has been seen as a bridge in the move from fossil fuels to cleaner energy. This work presents UK longitudinal survey data showing climate change beliefs increasingly diminish public support for natural gas.

    • Darrick Evensen
    • Lorraine Whitmarsh
    • Adam Varley
    Research
    Nature Climate Change
    Volume: 13, P: 240-243

  • Atoms experience large and typically undesirable forces near dielectric surfaces due to quantum fluctuations of the electromagnetic vacuum. The work of Chang et al.proposes a scheme in which these forces can be exploited to create strong atomic traps at nanoscale distances from surfaces.

    • D. E. Chang
    • K. Sinha
    • H. J. Kimble
    ResearchOpen Access
    Nature Communications
    Volume: 5, P: 1-9

  • Researchers show that atom-like dipoles based on germanium vacancy centres in diamond may be useful as antennas, exhibiting million-fold near-field optical intensity enhancement. These antennas are used to detect and control the charge state of nearby carbon vacancies.

    • Zixi Li
    • Xinghan Guo
    • Alexander A. High
    Research
    Nature Photonics
    Volume: 18, P: 1113-1120

  • The students striking for action on climate change admirably display civic engagement on a pressing issue. Nevertheless, their movement’s message focuses far too heavily on the need to ‘listen to science’, which is at most a point of departure for answering the ethical and political questions central to climate action.

    • Darrick Evensen
    Comments & Opinion
    Nature Climate Change
    Volume: 9, P: 428-430

  • Numerical simulation of light propagation through 1D atomic systems in the many-body limit rapidly saturates hardware capabilities. Here, the authors tackle the problem by mapping the dynamics to an open 1D interacting spin system and solving it using the matrix product state ansatz.

    • Marco T. Manzoni
    • Darrick E. Chang
    • James S. Douglas
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-11

  • An array of superconducting qubits in an open one-dimensional waveguide is precisely controlled to create an artificial quantum cavity–atom system that reaches the strong-coupling regime without substantial decoherence.

    • Mohammad Mirhosseini
    • Eunjong Kim
    • Oskar Painter
    Research
    Nature
    Volume: 569, P: 692-697

  • This review article summarizes the emerging field of quantum nonlinear optics. Three major approaches to generate optical nonlinearities based on cavity quantum electrodynamics, atomic ensembles with large Kerr nonlinearities and strong atomic interactions are reviewed. Applications of quantum nonlinear optics and many-body physics with strongly interacting photons are also discussed.

    • Darrick E. Chang
    • Vladan Vuletić
    • Mikhail D. Lukin
    Reviews
    Nature Photonics
    Volume: 8, P: 685-694