Volume 18

  • No. 10 October 2024

    Fluorescence-lifetime image scanning microscopy

    Integrating a single-photon avalanche detector (SPAD) array into a confocal laser scanning microscope yields a twofold increase in the localization accuracy for single-molecule localization microscopy. The cover shows an artistic impression of the SPAD array detector with microlenses, where the two disks/shaded Gaussians depict the emission of two different fluorescent molecules hitting the detector array.

    See Radmacher et al.

  • No. 9 September 2024

    Hyper-Raman optical activity

    Hyper-Raman optical activity: circularly polarized infrared photons (red helices) incident on molecules arranged on a helical scaffold (white dots) produce hyper-Raman scattering spectra (multicoloured light regions) that feature chirality.

    See Valev et al.

  • No. 8 August 2024

    Stretchable displays

    A soft ribbon-shaped perovskite electroluminescent display simultaneously offers multicolour output, stretchability, high brightness, and double-sided emission. This dynamic display capability holds promise for broad applications in interactive wearable devices, artificial skin, and soft robotics.

    See Chun et al.

  • No. 7 July 2024

    Terahertz-driven electron guns

    Artist’s impression of a waveguide-based terahertz-driven photogun that serves as a compact source of high-energy electrons. The design exploits a movable cathode tip and multiple cells to provide an acceleration gradient as high as ~3 GV/m. Using microjoule-level single-cycle terahertz pulses, electron beams with up to ~14 keV electron energy, 1% energy spread and ~0.015 mm mrad transverse emittance are possible.

    See Ying et al.

  • No. 6 June 2024

    Ultrafast tunnelling spectroscopy

    Lightwave-driven scanning tunnelling spectroscopy, which combines atomic spatial resolution with sub-picosecond temporal resolution and millielectronvolt energy resolution, enables the analysis of the energy dynamics of a single-atom defect in a 2D material excited by phonons.

    See Roelcke et al.

  • No. 5 May 2024

    Implantable biophotonics

    Artistic image of an implantable wireless optoelectronic probe for monitoring tissue oxygenation levels within the brain. The microscale implant integrates an LED with a photodetector and is coated with a phosphorescent film which is sensitive to oxygen.

    See Cai et al.

  • No. 4 April 2024

    Perovskite polaritons

    Artistic image of the polariton spin Hall effect in a liquid-crystal-filled perovskite microcavity under electrical voltages at room temperature. The findings represent a development in the generation and manipulation of pure polariton spins for spin-optoelectronic applications.

    See Liang et al.

  • No. 3 March 2024

    Quantum skyrmions

    Two-photon entangled states with a non-trivial topology are used to form quantum skyrmions that exhibit topological invariance.

    See Ornelas et al.

  • No. 2 February 2024

    Ultrafast dual-comb spectroscopy

    An artistic image of a dual-frequency comb that is generated by using an optical parametric oscillator to convert a pair of near-infrared combs into the mid-infrared. The generated combs enable nanosecond-timescale spectroscopy for probing the ultrafast dynamics found in supersonic gas jets, explosions and chemical kinetics.

    See Long et al.

  • No. 1 January 2024

    On-chip optical logic

    On-chip optoelectronic logic gates that operate in the telecom wavelength band are constructed by integrating multiple silicon waveguides with black phosphorus.

    See He et al.