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Showing 1–14 of 14 results
Advanced filters: Author: Matthew Pelton Clear advanced filters

  • An epsilon-near-zero medium is used to demonstrate ultrastrong coupling between phonons and gap plasmons. The approach may pave the path to exploitation of vibrational transitions.

    • Daehan Yoo
    • Fernando de León-Pérez
    • Sang-Hyun Oh
    Research
    Nature Photonics
    Volume: 15, P: 125-130

  • The signatures of strong and intermediate plasmon-emitter coupling can be confused if scattering measurements alone are performed. Here, the authors use scattering and photoluminescence to demonstrate weak, intermediate, and strong coupling between single quantum dots and plasmons at room temperature.

    • Haixu Leng
    • Brian Szychowski
    • Matthew Pelton
    ResearchOpen Access
    Nature Communications
    Volume: 9, P: 1-7

  • Colloidal nanocrystals are a promising material for easy-to-fabricate nanolasers, but suffer from high threshold powers. Here, the authors combine colloidal quantum wells with a photonic-crystal cavity into a stable, continuous-wave room-temperature nanolaser with a threshold below one microwatt

    • Zhili Yang
    • Matthew Pelton
    • Edo Waks
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-8

  • Building scalable quantum technologies requires generating robust many-body entanglement in solid-state platforms. This Review highlights how engineered light–matter interactions, optical nonlinearities and coupling to nanophotonic structures enable coherent many-body entangled states that are resilient to disorder and decoherence.

    • Emma Daggett
    • Christian M. Lange
    • Libai Huang
    Reviews
    Nature Reviews Materials
    P: 1-21

  • Experiments on nanoparticles with highly uniform sizes show how acoustic vibrations are damped through a combination of intrinsic and viscous damping by the surrounding fluid.

    • Matthew Pelton
    • John E. Sader
    • David Gosztola
    Research
    Nature Nanotechnology
    Volume: 4, P: 492-495

  • Life-cycle assessment of biofuel carbon emissions does not usually take into account the potential for soil carbon loss resulting from crop residue removal. Now estimates of CO2 emissions due to corn residue removal across the US Corn Belt indicate that the emissions from soil carbon loss could push total emissions above the US legislative mandate.

    • Adam J. Liska
    • Haishun Yang
    • Andrew E. Suyker
    Research
    Nature Climate Change
    Volume: 4, P: 398-401

  • Electromagnetic waves passing through nanogaps can be strongly enhanced, leading to novel physical phenomena. Chen et al. present a new method of atomic layer lithography for patterning uniform arrays of subnanometre gaps in metal films using adhesive tape and show unprecedented field enhancements.

    • Xiaoshu Chen
    • Hyeong-Ryeol Park
    • Sang-Hyun Oh
    Research
    Nature Communications
    Volume: 4, P: 1-7

  • Whether circadian rhythms occur in settings where clock gene expression is suppressed, such as systemic inflammation, is unclear. Here, the authors examine gene expression and metabolites in the lungs of endotoxemic mice and show that inflammation causes changes in circadian rhythms at the cellular and molecular level.

    • Jeffrey A. Haspel
    • Sukrutha Chettimada
    • Augustine M.K. Choi
    Research
    Nature Communications
    Volume: 5, P: 1-15

  • Keith Ligon, Adam Resnick, Rameen Beroukhim and colleagues identify MYB-QKI fusions in angiocentric gliomas and show that these rearrangements promote tumorigenesis through activation of MYB by truncation, enhancer translocation driving aberrant MYB-QKI expression and hemizygous loss of QKI.

    • Pratiti Bandopadhayay
    • Lori A Ramkissoon
    • Adam C Resnick
    Research
    Nature Genetics
    Volume: 48, P: 273-282

  • Nanophotonic systems, including photonic crystal microcavities and plasmonic metal nanoparticles, that are capable of changing the rate of spontaneous emission are reviewed and compared.

    • Matthew Pelton
    Reviews
    Nature Photonics
    Volume: 9, P: 427-435