Optics and photonics articles within Nature Communications

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  • Article
    | Open Access

    Signal transmission without the interference from ambient light is prerequisite for optical communications. Min et al. design an asymmetric 2D-3D-2D perovskite photodetector with frequency-selective photoresponse for real-time high fidelity optical communications under strong light interference.

    • Liangliang Min
    • , Haoxuan Sun
    •  & Liang Li

  • Article
    | Open Access

    Quickly acquiring topographical information from a sample remains a challenge in optics. Here, the authors introduce encoded search focal scan, a technique for sub-micrometric imaging of tens of topographies per second based on collecting a reduced set of images.

    • Narcís Vilar
    • , Roger Artigas
    •  & Guillem Carles

  • Article
    | Open Access

    Dielectric constant of non-fullerene acceptors plays a critical role in organic solar cells in terms of exciton dissociation and charge recombination. Here, authors report selenium substitution on central core of acceptors to improve dielectric constant, realizing devices with efficiency of 19.0%.

    • Xinjun He
    • , Feng Qi
    •  & Wallace C. H. Choy

  • Comment
    | Open Access

    I argue that a surface emitting laser that remains single mode irrespective of its size, a scale-invariant laser, should of necessity also waste light at the edge. This is a fundamental departure from the Schawlow-Townes two-mirror strategy that keeps light away from mirrors and edges to preserve gain and minimize loss. The strategy was implemented in the recent discovery of the Berkeley Surface Emitting Laser (BerkSEL).

    • Boubacar Kanté

  • Article
    | Open Access

    Principal optical axes define light-matter interactions in crystals and they are usually assumed to be stationary. Here, the authors report the observation of wavelength-dependent principal optical axes in ternary van der Waals crystals (ReS2 and ReSe2), leading to wavelength-switchable propagation directions of their waveguide modes.

    • Georgy A. Ermolaev
    • , Kirill V. Voronin
    •  & Kostya S. Novoselov

  • Article
    | Open Access

    Bioresorbable neural implants offer a promising solution to the challenges of secondary surgeries required for the removal of implanted devices. Here, the authors introduce a fully bioresorbable flexible hybrid opto-electronic system for simultaneous electrophysiological recording and optogenetic stimulation.

    • Myeongki Cho
    • , Jeong-Kyu Han
    •  & Ki Jun Yu

  • Article
    | Open Access

    Previous research reported enhanced emission from spin defects in hBN by coupling to optical resonators; however, this approach has limited scalability. Here the authors use a monolithic metasurface featuring quasi bound states fabricated from hBN to enhance photoemission and optical spin-readout efficiency of defects in the same material.

    • Luca Sortino
    • , Angus Gale
    •  & Andreas Tittl

  • Article
    | Open Access

    The authors propose a generalization of the equipartition theorem of thermal physics to account for non-Hermitian trapping forces, relevant for the problems in non-equilibrium open systems and advanced nanotechnology.

    • Xiao Li
    • , Yongyin Cao
    •  & Jack Ng

  • Article
    | Open Access

    Current approaches for volumetric super-resolution microscopy can yield large and complex PSF spatial footprints. Here, the authors show a super-resolution microscopy approach using a hexagonal microlens array, which offers speed improvements in volumetric imaging compared to other single-molecule methods.

    • Sam Daly
    • , João Ferreira Fernandes
    •  & Steven F. Lee

  • Article
    | Open Access

    Parallel information transmission components and hardware strategies are still lacking in neural networks. Here, the authors propose a strategy to use light emitting memristors with negative ultraviolet photoconductivity and intrinsic parallelism to construct direct information cross-layer modules.

    • Zhenjia Chen
    • , Zhenyuan Lin
    •  & Huipeng Chen

  • Article
    | Open Access

    Achieving spatiotemporal control of photochromic upconversion from a single lanthanide emitter remains challenging. Here, the authors present a conceptual model enabling such control of Er3+ photochromic upconversion via interfacial energy transfer in a core-shell nanostructure.

    • Long Yan
    • , Jinshu Huang
    •  & Bo Zhou

  • Article
    | Open Access

    Using gas cells for spectroscopic studies opens possibility for miniaturized platforms that can be integrated with other optical components. Here the authors demonstrate molecular rovibrational spectroscopy by confining molecules in a cell of subwavelength thickness.

    • Guadalupe Garcia Arellano
    • , Joao Carlos de Aquino Carvalho
    •  & Athanasios Laliotis

  • Article
    | Open Access

    Via Raman and infrared spectroscopy measurements, X. Zan et al. find that rhombohedral ABC trilayer graphene has stronger electron/infrared-phonon coupling than Bernal ABA trilayer graphene.

    • Xiaozhou Zan
    • , Xiangdong Guo
    •  & Guangyu Zhang

  • Article
    | Open Access

    The authors show an original approach to achieve strong light-matter interaction harnessing the coupling between plasmonic resonators and the Landau resonances of an underlying quantum well, demonstrating remarkably high coupling strengths.

    • Joshua Mornhinweg
    • , Laura Katharina Diebel
    •  & Christoph Lange

  • Article
    | Open Access

    Mid-infrared hyperspectral imaging is valuable for sample characterisation but suffers limited scanning rates. The authors develop such an imaging system based on parametric upconversion of supercontinuum illumination in the Fourier plane, enabling a 100-Hz acquisition rate of spectral datacubes.

    • Jianan Fang
    • , Kun Huang
    •  & Heping Zeng

  • Article
    | Open Access

    The miniaturization of spectrometers to a submillimeter-scale footprint opens opportunities for applications in hyperspectral imaging and lab-on-a-chip systems. Here, the authors report a high-performance single-pixel photodetector spectrometer based on the III-V semiconductor p-graded-n junction, featuring a voltage-tunable optical response.

    • Jingyi Wang
    • , Beibei Pan
    •  & Baile Chen

  • Article
    | Open Access

    Non-Hermitian systems have many physical properties without Hermitian counterparts. Here, the authors demonstrate a non-Hermitian topolectrical circuit hosting continuous bound states under pseudomagnetic fields with no counterparts in Hermitian systems.

    • Xuewei Zhang
    • , Chaohua Wu
    •  & Gang Chen

  • Article
    | Open Access

    In-sensor computing requires detectors with polarity reconfigurability and linear responsivity. Pang et al. report a CsPbBr3 perovskite single crystal X-ray detector for edge extraction imaging with a data compression ratio of 46.4% and classification task with an accuracy of 100%.

    • Jincong Pang
    • , Haodi Wu
    •  & Guangda Niu

  • Article
    | Open Access

    There is a lack of universal tools to analyse protein assemblies and quantify underlying structures in single-molecule localization microscopy. Here, the authors present SEMORE, a semi-automatic machine learning framework for system- and input-dependent analysis of super-resolution data.

    • Steen W. B. Bender
    • , Marcus W. Dreisler
    •  & Nikos S. Hatzakis

  • Article
    | Open Access

    Multifunctional all-optical logic gate (AOLG) with broadband-based massively parallel processing is desirable for high-speed optical processor. Here, authors propose a reconfigurable all-in-one ultra-broadband AOLG with experimentally achieving 9 fundamental Boolean logics in a single configuration.

    • Jinlong Xu
    • , Chi Zhang
    •  & Lin Zhou

  • Article
    | Open Access

    Exploring the miniaturization of imaging systems, researchers use inverse-design for broadband meta-optics in the LWIR spectrum. Here, authors achieve a six-fold Strehl ratio improvement in image quality over conventional metalenses using a novel design and computational techniques.

    • Luocheng Huang
    • , Zheyi Han
    •  & Arka Majumdar

  • Article
    | Open Access

    Here the authors demonstrate a strong interaction between the generated solitons and background light in a Brillouin-Kerr microcomb system. Based on this unique physical mechanism, they achieve a monostable single soliton microcomb and a turnkey single-soliton microcomb without employing any optical/electrical control or feedback.

    • Menghua Zhang
    • , Shulin Ding
    •  & Xiaoshun Jiang

  • Article
    | Open Access

    Conventional staining of post-mortem samples can be affected by several factors, including tissue autolysis. Here, the authors demonstrate a virtual staining tool using a trained neural network to turn autofluorescence images of label-free autopsy tissue into brightfield equivalent images.

    • Yuzhu Li
    • , Nir Pillar
    •  & Aydogan Ozcan

  • Article
    | Open Access

    Spin-orbit interaction, and the associated phenomena, is commonly observed in crystalline structure pumped with circularly polarised beam. Here, the authors showed that this is not the case, and used nonlinear thin film to produce vortex beams of second-harmonic light.

    • Domenico de Ceglia
    • , Laure Coudrat
    •  & Costantino De Angelis

  • Article
    | Open Access

    Here the authors develop a coupled ring resonators platform for realizing topological states of matter with hyperbolic dispersion thus offering an approach to boost the efficiency of topological photonic devices.

    • Lei Huang
    • , Lu He
    •  & Xiangdong Zhang

  • Article
    | Open Access

    Authors showcase that non-orthogonal optical multiplexing can be achieved over a multimode fiber utilizing deep learning, where information encoded in non-orthogonal input channels even with the same polarization, wavelength, and spatial region can be demultiplexed with high accuracy.

    • Tuqiang Pan
    • , Jianwei Ye
    •  & Yuwen Qin

  • Article
    | Open Access

    The researchers showcase swept-coded aperture real-time femtophotography—an all-optical single-shot computational imaging modality at up to 156.3 trillion frames per second—video-records transient absorption in a semiconductor and ultrafast demagnetization of a metal alloy.

    • Jingdan Liu
    • , Miguel Marquez
    •  & Jinyang Liang

  • Perspective
    | Open Access

    Optical computing via free-space-based structured optical materials allows to access optical information without the need for preprocessing or optoelectronic conversion. In this Perspective, the authors describe opportunities and challenges in their use for optical computing, information processing, computational imaging and sensing.

    • Jingtian Hu
    • , Deniz Mengu
    •  & Aydogan Ozcan

  • Article
    | Open Access

    In this work, the authors present an active optical metasurface based on a silicon-organic platform. The metasurface can modulate the amplitude of a reflected beam via electric voltage actuation lower than ± 17V.

    • Tianzhe Zheng
    • , Yiran Gu
    •  & Andrei Faraon

  • Article
    | Open Access

    Researchers showcase an integrated photonic device with monocrystalline CsPbBr3 perovskite. Employing top-down etching approach, it introduces for micro lasers, beam splitters, X-couplers, Mach-Zehnder interferometers on perovskite films. This opens avenues for integrating perovskite semiconductors into optical chips, promising advancements in information and computing science.

    • Qi Han
    • , Jun Wang
    •  & Li Ji

  • Article
    | Open Access

    Here, the authors report on the fabrication of strained wrinkles in monolayer WSe2 by placing the material on Au nanoconical substrates. They investigate the correlation between topographical stress factors and localised, quantum-dot-like photoluminescence emission.

    • Emanuil S. Yanev
    • , Thomas P. Darlington
    •  & P. James Schuck

  • Article
    | Open Access

    Here the authors experimentally realized a systematic approach to synthesize arbitrary-size two-dimensional all-band-flat photonic lattices, which pave a route for investigating flat-band related physics such as slow-light, nonlinear breathing, and dispersionless image transmission.

    • Jing Yang
    • , Yuanzhen Li
    •  & Fei Gao

  • Article
    | Open Access

    The authors showcase a video-rate hyperspectral imager based on a single-pixel photodetector that can achieve high-throughput hyperspectral video recording at a low bandwidth. Specifically, they propose a joint spatial-spectral encoding scheme which can encode the scene into highly compressed single-pixel measurements and obtain temporal correlation at the same time.

    • Yibo Xu
    • , Liyang Lu
    •  & Kevin F. Kelly

  • Article
    | Open Access

    The enantiomer fraction strategy can achieve continuous control of the phase transition temperature, chiroptical properties, SHG intensity and other properties of chiral two-dimensional lead bromide ferroelectrics.

    • Chang-Chun Fan
    • , Cheng-Dong Liu
    •  & Wen Zhang

  • Article
    | Open Access

    Astrocombs serve as precision calibrators for astrophysical spectrographs by providing a regular sequence of optical lines on a multi-GHz grid. Here, the authors report the first broadband astrocomb in the UV to blue-green spectral region, where stellar absorption lines are most abundant.

    • Yuk Shan Cheng
    • , Kamalesh Dadi
    •  & Derryck T. Reid

  • Article
    | Open Access

    An efficient and physically accurate platform is required to rapidly design high-performance integrated photonic devices. Here, the authors present a scalable framework for creating on-chip optical systems with complex and arbitrary functionality.

    • Ali Najjar Amiri
    • , Aycan Deniz Vit
    •  & Emir Salih Magden

  • Article
    | Open Access

    The Authors report a novel architecture of photonic beamformer capable of achieving broadband operation and a high number of pointing angles. We demonstrate the operation of a 5-bit beamformer capable of providing 32 pointing angles in the 10−30 GHz range.

    • Pablo Martinez-Carrasco
    • , Tan Huy Ho
    •  & José Capmany

  • Article
    | Open Access

    Applications of spontaneous symmetry breaking are hindered by unavoidable imperfections. Here, the authors reveal how a phase defect provides topological robustness to this process, enabling a bias free realization without fine tuning of parameters.

    • Stéphane Coen
    • , Bruno Garbin
    •  & Julien Fatome

  • Article
    | Open Access

    Differential absorption of polarized light, called dichroism, does not exist in amorphous solids due to the disordered arrangements of atoms. Here, the authors demonstrate that dichroism is intrinsic to all solids and can be controlled using helical light beams carrying orbital angular momentum.

    • Ashish Jain
    • , Jean-Luc Bégin
    •  & Ravi Bhardwaj

  • Article
    | Open Access

    Electric modulation of second harmonic generation finds applications in integrated photonics. Here, authors introduce electric field-induced second harmonic generation by polar skyrmions in PbTiO3/SrTiO3 superlattices with giant modulation depth.

    • Sixu Wang
    • , Wei Li
    •  & Qian Li

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