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| Open AccessHigh-resolution, large field-of-view label-free imaging via aberration-corrected, closed-form complex field reconstruction
The authors present APIC, a closed-form reconstruction method for microscopy that avoids iterative algorithms, enabling correct imaging reconstruction with no additional hardware. APIC demonstrates analytical complex field reconstructions from darkfield measurements and NA-matching alone.
- Ruizhi Cao
- , Cheng Shen
- & Changhuei Yang
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Article
| Open AccessHigh-speed optical imaging with sCMOS pixel reassignment
The authors introduce a highspeed acquisition technique, sHAPR, for rapid exploration of biodynamics using fluorescence microscopy. The method leverages sCMOS cameras and custom fibre optics to convert microscopy images into 1D recordings, enabling acquisition at the maximum camera readout rate.
- Biagio Mandracchia
- , Corey Zheng
- & Shu Jia
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Article
| Open AccessIntegrated photonic encoder for low power and high-speed image processing
The researchers showcase a silicon-photonics-based analog approach for large-scale image processing that can be deployed for high-speed image compression and de-noising using an auto-encoder framework with minimal power consumption.
- Xiao Wang
- , Brandon Redding
- & Raktim Sarma
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Article
| Open AccessPhotoacoustic Tomography with Temporal Encoding Reconstruction (PATTERN) for cross-modal individual analysis of the whole brain
Here, the authors introduce Photoacoustic Tomography with Temporal Encoding Reconstruction (PATTERN) - a high-speed, non-destructive photoacoustic brain imaging technique that constructs 3D fluorescent maps of the brain and improves upon some of the limitations associated with traditional whole-brain optical imaging techniques.
- Yuwen Chen
- , Haoyu Yang
- & Bo Lei
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Article
| Open AccessMechanical-scan-free multicolor super-resolution imaging with diffractive spot array illumination
Here, the authors use spot array illumination to enable mechanical-scan-free super-resolution microscopy with adjustable resolution and good effective field of view, demonstrating a platform for studying molecular interactions at the nanoscale.
- Ning Xu
- , Sarah E. Bohndiek
- & Qiaofeng Tan
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Article
| Open AccessPhotonic-electronic integrated circuit-based coherent LiDAR engine
The researchers showcase a photonic-electronic FMCW LiDAR source composed of a micro-electronic based high-voltage arbitrary waveform generator, a photonic circuit-based tunable Vernier laser with piezoelectric actuators, and an erbium-doped waveguide amplifier.
- Anton Lukashchuk
- , Halil Kerim Yildirim
- & Tobias J. Kippenberg
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Article
| Open AccessOptics miniaturization strategy for demanding Raman spectroscopy applications
Authors present a centimeter-scale miniaturized Raman spectrometer using cheap nonstabilized laser diodes, densely packed optics, and non-cooled small sensors while the performance is comparable with expensive bulky research-grade Raman systems.
- Oleksii Ilchenko
- , Yurii Pilhun
- & Anja Boisen
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Article
| Open AccessHigh-security learning-based optical encryption assisted by disordered metasurface
In this work, the employment of disordered metasurface as an ultra-stable and actively polarized speckle generator in a passive manner, coupled with a double-secure treatment to the plaintext, enables a highly secure speckle-based cryptosystem.
- Zhipeng Yu
- , Huanhao Li
- & Puxiang Lai
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Article
| Open AccessSubwavelength dielectric waveguide for efficient travelling-wave magnetic resonance imaging
Achieving uniform spin excitation, crucial for MRI, is challenging in the electrically large human body at UHF. Here, authors introduce an innovative dielectric waveguide specifically designed for traveling-wave MRI, which enhances homogeneity and efficiency through effective wave manipulation.
- Yang Gao
- , Tong Liu
- & Xiaotong Zhang
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Article
| Open AccessBroadband angular spectrum differentiation using dielectric metasurfaces
Metasurfaces processing incoming images have been proposed in the context of real space operations. Here, the authors demonstrate mathematical operations, such as differentiation, on the angular spectrum of an image using metasurfaces, which can be used to enhance spectral features of an image.
- Ming Deng
- , Michele Cotrufo
- & Lin Chen
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Article
| Open AccessFast topographic optical imaging using encoded search focal scan
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
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Article
| Open AccessFrequency-selective perovskite photodetector for anti-interference optical communications
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
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Article
| Open AccessWide-field mid-infrared hyperspectral imaging beyond video rate
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
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Article
| Open AccessReconfigurable perovskite X-ray detector for intelligent imaging
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
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Article
| Open AccessSwept coded aperture real-time femtophotography
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
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Article
| Open AccessSelf-supervised dynamic learning for long-term high-fidelity image transmission through unstabilized diffusive media
This work introduces a cutting-edge technique to overcome dynamic scattering challenges in long-distance multimode fiber transmission, achieving >99.9% accuracy for 1024 modes over 1 km, hence promises applications in diverse scattering scenarios.
- Ziwei Li
- , Wei Zhou
- & Qionghai Dai
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Article
| Open AccessA compressive hyperspectral video imaging system using a single-pixel detector
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
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Article
| Open AccessNeural network enabled nanoplasmonic hydrogen sensors with 100 ppm limit of detection in humid air
Detecting hydrogen gas in humid air is an unresolved challenge of significant importance for the safe implementation of hydrogen (energy) technologies. Here, authors demonstrate how the use of neural networks enables the sensing of hydrogen in highly humid air with a detection limit of 100 ppm.
- David Tomeček
- , Henrik Klein Moberg
- & Christoph Langhammer
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Article
| Open AccessTwo-edge-resolved three-dimensional non-line-of-sight imaging with an ordinary camera
Ordinary cameras cannot directly see objects hidden around corners. Here, from an ordinary indirect 2D photograph, the authors compute a 3D image of a scene hidden behind a doorway by exploiting two perpendicular edges of the doorway.
- Robinson Czajkowski
- & John Murray-Bruce
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Article
| Open AccessSpatio-spectral 4D coherent ranging using a flutter-wavelength-swept laser
Solid-state spatio-spectral coherent light detection and ranging system is proposed based on flutter-wavelength-swept laser for real-time four-dimensional coherent imaging over extended measurable distance even in challenging environments.
- Dawoon Jeong
- , Hansol Jang
- & Chang-Seok Kim
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Article
| Open AccessMiniaturized spectrometer with intrinsic long-term image memory
Recent studies have reported miniaturized spectrometers based on van der Waals heterostructures. Here, the authors demonstrate multifunctional SnS2/ReSe2 heterojunction spectrometers providing photodetection, spectrum reconstruction, spectral imaging, long-term image memory, and signal processing capabilities.
- Gang Wu
- , Mohamed Abid
- & Han-Chun Wu
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Article
| Open AccessDrone-based displacement measurement of infrastructures utilizing phase information
Drones are an effective and flexible tool for safety assessment of aging infrastructure, especially in locations with challenging accessibility. Here, authors demonstrate a phase-based sampling moiré technique with a drone for measurement of millimeter-scale infrastructural displacement in bridges.
- Shien Ri
- , Jiaxing Ye
- & Norihiko Ogura
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Article
| Open AccessSingle-cell mapping of lipid metabolites using an infrared probe in human-derived model systems
Current metabolic imaging studies are limited by low resolution and low specificity. Here, the authors present a single-cell metabolic imaging platform to monitor lipid metabolism with high specificity in various human-derived 2D and 3D culture systems.
- Yeran Bai
- , Carolina M. Camargo
- & Kenneth S. Kosik
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Article
| Open AccessRemote transport of high-dimensional orbital angular momentum states and ghost images via spatial-mode-engineered frequency conversion
Remote transport of high-dimensional-encoded photonic states could in principle be achieved via quantum teleportation, but with considerable experimental effort. Here, instead, the authors exploit spatial-mode engineered frequency conversion between a coherent wave packet and a single photon to remotely transfer the HD OAM states, also providing a strategy for quantum imaging.
- Xiaodong Qiu
- , Haoxu Guo
- & Lixiang Chen
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Article
| Open AccessFluorescence lifetime Hong-Ou-Mandel sensing
Standard techniques for Fluorescence Lifetime Imaging Microscopy are limited by the electronics to 100’s of picoseconds time resolution. Here, the authors show how to use two-photon interference to perform fluorescence lifetime sensing with picosecond-scale resolution.
- Ashley Lyons
- , Vytautas Zickus
- & Daniele Faccio
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Article
| Open AccessOverlapping speckle correlation algorithm for high-resolution imaging and tracking of objects in unknown scattering media
Imaging moving objects within scattering media is important for a wide range of fields but remains challenging in many practical scenarios. Here, the authors present an overlapping speckle correlation algorithm for imaging and tracking particles in unknown media with limited prior sample knowledge.
- Yaoyao Shi
- , Wei Sheng
- & Youwen Liu
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Article
| Open AccessDisordered metasurface enabled single-shot full-Stokes polarization imaging leveraging weak dichroism
Polarization imaging can capture information from the scene that cannot directly be recorded by traditional intensity cameras. Here, authors demonstrate a single-shot full Stokes polarization camera incorporating a disordered metasurface array with weak dichroism.
- Qingbin Fan
- , Weizhu Xu
- & Ting Xu
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Article
| Open AccessMetasurface-empowered snapshot hyperspectral imaging with convex/deep (CODE) small-data learning theory
Hyperspectral imagers play a vital role in material identification, but traditionally, they have been bulky. Here, the authors introduce a compact hyperspectral imaging system that combines metasurface optics with small-data deep learning.
- Chia-Hsiang Lin
- , Shih-Hsiu Huang
- & Pin Chieh Wu
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Article
| Open AccessPolarization structured light 3D depth image sensor for scenes with reflective surfaces
Highly reflective surfaces are notorious in 3D sensing because they can cause errors in depth perception. Here, the authors devise a polarization structured light 3D sensor for this problem, in which high-contrast-grating VCSELs are used. Experiments are reported to demonstrate the sensor can be used to see and see through the highly reflective surfaces.
- Xuanlun Huang
- , Chenyang Wu
- & Connie J. Chang-Hasnain
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Article
| Open AccessRheological engineering of perovskite suspension toward high-resolution X-ray flat-panel detector
The film uniformity is essential to the fixed pattern noise (FPN) and resolution of X-ray detectors. Here the authors demonstrate the rheological engineering of the perovskite suspension to achieve low FPN of 1.39% and high resolution of 0.51 lp/pix.
- Zihao Song
- , Xinyuan Du
- & Jiang Tang
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Article
| Open AccessLearning diffractive optical communication around arbitrary opaque occlusions
Researchers demonstrate robust optical communication around fully opaque occlusions, partially or entirely blocking the light path, using a pair of electronic encoder and passive diffractive decoder that are jointly optimized using deep learning.
- Md Sadman Sakib Rahman
- , Tianyi Gan
- & Aydogan Ozcan
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Article
| Open AccessRapid sensing of hidden objects and defects using a single-pixel diffractive terahertz sensor
Researchers showcase a deep learning-designed diffractive terahertz sensor that rapidly detects hidden defects within 3D samples based on the output spectrum measured by a single-pixel detector, eliminating sample scanning or image formation/processing.
- Jingxi Li
- , Xurong Li
- & Aydogan Ozcan
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Article
| Open AccessSubwavelength terahertz imaging via virtual superlensing in the radiating near field
The authors develop a method for sub-diffraction near-field imaging using measurements taken relatively far from an object, amplifying evanescent waves that encode the highest resolution. The increased distance greatly reduces the perturbation of the fields by the imaging device itself.
- Alessandro Tuniz
- & Boris T. Kuhlmey
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Article
| Open AccessIntegrated reconstructive spectrometer with programmable photonic circuits
Recent years have seen a growing need for miniaturized spectroscopic tools. Here, authors present a novel integrated spectrometer with programmable photonic circuits, achieving record-high resolution and bandwidth via only a few filtering components.
- Chunhui Yao
- , Kangning Xu
- & Richard Penty
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Article
| Open AccessIn vivo noninvasive systemic myography of acute systemic vasoactivity in female pregnant mice
The assessment of selective therapeutics targeted to treat altered vasoactivity, a major characteristic of cardiovascular and oncological diseases, is still challenging due to unknown whole-body selectivity. Here the authors demonstrate that photoacoustic tomography has the potential to capture significant acute vasodilation of major arteries and vasculature selectivity.
- Kristie Huda
- , Dylan J. Lawrence
- & Carolyn L. Bayer
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Article
| Open AccessOrientation distributions of vacuum-deposited organic emitters revealed by single-molecule microscopy
The understanding of the orientation of luminescent molecules is currently limited by the ensemble-averaging nature of state-of-the-art measurements. Here, the authors apply single-molecule imaging to obtain complete orientation distributions of the transition dipole of individual emitter molecules.
- Francisco Tenopala-Carmona
- , Dirk Hertel
- & Malte C. Gather
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Article
| Open AccessHigh-resolution single-photon imaging with physics-informed deep learning
High-resolution single-photon imaging is challenging due to complex hardware and noise disturbances. Here, the authors realise simultaneous single-photon denoising and super-resolution enhancement by physics-informed deep learning, with a physical multi-source noise model, two single-photon image datasets, and a deep transformer network.
- Liheng Bian
- , Haoze Song
- & Jun Zhang
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| Open AccessLight-enhanced molecular polarity enabling multispectral color-cognitive memristor for neuromorphic visual system
Designing optoelectronic synapses having a multispectral color-discriminating ability is crucial for neuromorphic visual system. Here, the authors propose an strategy to introduce RGB color-discriminating synaptic functionality into a 2-terminals memristor regardless of switching medium and design a color image-recognizing CNN and light-programmable reservoir computing.
- Jongmin Lee
- , Bum Ho Jeong
- & Hui Joon Park
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Article
| Open AccessRobotic-OCT guided inspection and microsurgery of monolithic storage devices
Demand for data recovery from monolithic storage devices is high but current methods are inefficient. Here, authors develop a robotic OCT-guided inspection and microsurgery method, minimizing damage to device and enhancing data recovery efficiency.
- Bin He
- , Yuxin Zhang
- & Ning Zhang
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Article
| Open AccessOptimized virtual optical waveguides enhance light throughput in scattering media
Virtual optical waveguide can be potentially utilised in variety of applications that require in situ light steering yet the efficacy is still unclear. Here, the authors show that ultrasonically-sculpted virtual gradient-index waveguides are effective in guiding and confining light inside tissue and other scattering media, and significantly outperform external lenses at this task.
- Adithya Pediredla
- , Matteo Giuseppe Scopelliti
- & Ioannis Gkioulekas
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Article
| Open AccessCompact all-fiber quantum-inspired LiDAR with over 100 dB noise rejection and single photon sensitivity
LiDARs exploiting quantum correlations provide enhancement in noise resilience and sensitivity, but high-power classical sources offer much higher operating distances. Here, the authors show how to exploit high power classical time-frequency correlations to keep the best of both worlds.
- Han Liu
- , Changhao Qin
- & Amr S. Helmy
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Article
| Open AccessOperando monitoring of thermal runaway in commercial lithium-ion cells via advanced lab-on-fiber technologies
Operando monitoring of thermal runaway in Li-ion batteries is critical. Here, authors develop an optical fiber sensor capable of insertion into 18650 batteries to monitor internal temperature and pressure during thermal runaway, facilitating battery safety assessment and early warning capability.
- Wenxin Mei
- , Zhi Liu
- & Tuan Guo
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Article
| Open AccessInfrared spectroscopic laser scanning confocal microscopy for whole-slide chemical imaging
Chemical imaging, including infrared spectroscopic microscopy with molecular sensitivity, is useful for label-free biomedical analyses, but is limited by slow speed and poor image quality. Here, the authors design a fast mid-infrared microscope with low noise and high spatial resolution for high-throughput imaging of whole slides.
- Kevin Yeh
- , Ishaan Sharma
- & Rohit Bhargava
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Article
| Open AccessSuper-resolution multicolor fluorescence microscopy enabled by an apochromatic super-oscillatory lens with extended depth-of-focus
Conventional super-oscillatory devices suffer from numerical-aperture related issue including depth of focus, chromatic dispersion, and focusing, Here, the authors utilised multi-objective genetic algorithm to optimise the design and experimentally demonstrated lens with an extended depth of focus, ultra-large working distance and suppressed side-lobes.
- Wenli Li
- , Pei He
- & Yiting Yu
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Article
| Open AccessCarrier-envelope phase on-chip scanner and control of laser beams
Measurement and control of the carrier-envelope phase (CEP) is essential for applications of few-cycle laser beams. The authors present a compact on-chip, ambient-air, CEP scanning probe and show a 3D map of spatial changes of CEP and demonstrate CEP control in the focal volume with a spatial light modulator.
- Václav Hanus
- , Beatrix Fehér
- & Péter Dombi
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Article
| Open AccessHandheld snapshot multi-spectral camera at tens-of-megapixel resolution
Current multispectral video cameras can hardly scale up beyond megapixel resolution and do not apply to large-scale scenes. The authors design a tens-ofmegapixel handheld multi-spectral imaging scheme, build a setup achieving 65-megapixel videography of 12 wavebands, and show its wide applications.
- Weihang Zhang
- , Jinli Suo
- & Qionghai Dai
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Article
| Open AccessDual-comb optomechanical spectroscopy
Spectroscopic gas sensing with high sensitivity and selectivity finds an increasing number of applications. Here, the authors report an approach to ultrasensitive multiplexed gas sensing by integrating dual-comb spectroscopy with cavity optomechanics.
- Xinyi Ren
- , Jin Pan
- & Heping Zeng
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Article
| Open AccessEnabling low-drift flexible perovskite photodetectors by electrical modulation for wearable health monitoring and weak light imaging
Defects and ion migration in perovskites hinder their potential as active material for flexible photodetectors. Here, the authors provide an electrical field modulation strategy to enhance the operational stability and the signal-to-noise ratio of flexible perovskite photodetectors.
- Yingjie Tang
- , Peng Jin
- & Bowen Zhu
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Article
| Open AccessUltra-wideband optical coherence elastography from acoustic to ultrasonic frequencies
Understanding the mechanical properties of materials is critical in many fields, from soft hydrogels to biological tissues, yet current measurement methods lack the spatial and time resolution to characterize samples with complex structures. Here, the authors show non-invasive elastography technique offering advancements in resolution, sensitivity, and measurement frequencies.
- Xu Feng
- , Guo-Yang Li
- & Seok-Hyun Yun