Spatial light modulation for femtosecond laser manufacturing:Current developments and challenges 被引量：2

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作者 ZANG Xue LIU ZiTing +4 位作者 XU YiShi WANG Yi WANG Qing LI ZhenZe WANG Lei 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2024年第1期60-72,共13页

Since the invention of lasers,spatial-light-modulated laser processing has become a powerful tool for various applications.It enables multidimensional and dynamic modulation of the laser beam,which significantly impro... Since the invention of lasers,spatial-light-modulated laser processing has become a powerful tool for various applications.It enables multidimensional and dynamic modulation of the laser beam,which significantly improves the processing efficiency,accuracy,and flexibility,and presents wider prospects over traditional mechanical technologies for machining three-dimensional,hard,brittle,or transparent materials.In this review,we introduce:(1)The role of spatial light modulation technology in the development of femtosecond laser manufacturing;(2)the structured light generated by spatial light modulation and its generation methods;and(3)representative applications of spatial-light-modulated femtosecond laser manufacturing,including aberration correction,parallel processing,focal field engineering,and polarization control.Finally,we summarize the present challenges in the field and possible future research. 展开更多

关键词 femtosecond laser manufacturing spatial light modulation structured light aberration correction parallel processing focal field engineering polarization control

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Ultra-broadband spatial light modulation with dual-resonance coupled epsilon-near-zero materials 被引量：2

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作者 Qin Chen Shichao Song +3 位作者 Huacun Wang Li Liang Yajin Dong Long Wen 《Nano Research》 SCIE EI CSCD 2021年第8期2673-2680,共8页

It has been found that the dielectric constants of transparent conductive oxides(TCOs)can be adjusted in an extremely large range by tuning the carrier density.Due to the remarkable light confinement property of the e... It has been found that the dielectric constants of transparent conductive oxides(TCOs)can be adjusted in an extremely large range by tuning the carrier density.Due to the remarkable light confinement property of the epsilon-near-zero(ENZ)effect of TCOs,it has attracted extensive interests of light modulation.However,the operation wavelength bandwidth is usually limited by optical resonance that is applied to enhance the light-TCOs interaction.In this work,a dual-resonance light coupling scheme is proposed to expand the modulation depth-bandwidth product with almost one order-of-magnitude improvement.In a metallic subwavelength grating structure with deep trenches backed by a ground plane,the ENZ mode can be coupled to both magnetic resonance and Fabry-Perot resonance respectively by tuning the bias.Decent light modulation can be obtained in a large operation wavelength band covering two resonances by optimizing the dual-resonance configuration.Such a reconfigurable efficient broadband modulation is important for robust communication link and possesses remarkable capacity for wavelength division multiplexing. 展开更多

关键词 epsilon-near-zero spatial light modulation plasmonics transparent conductive oxides field effect

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Femtosecond laser modulated into Bessel beam by spatial light modulator for Fresnel zone plate processing

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作者 DUAN Lian ZHOU Fang +3 位作者 KONG De-jian ZHANG Fan SUN Xiao-yan DUAN Ji-an 《Journal of Central South University》 2025年第2期469-482,共14页

Femtosecond laser processing is an important machining method for micro-optical components such as Fresnel zone plate(FZP).However,the low processing efficiency of the femtosecond laser restricts its application.Here,... Femtosecond laser processing is an important machining method for micro-optical components such as Fresnel zone plate(FZP).However,the low processing efficiency of the femtosecond laser restricts its application.Here,a femtosecond laser Bessel beam is proposed to process micro-FZP,which is modulated from a Gaussian beam to a Bessel annular beam.The processing time for FZP with an outer diameter of 60μm is reduced from 30 min to 1.5 min on an important semiconductor material gallium arsenide(GaAs),which significantly improves the processing efficiency.In the modulation process,a central ablation hole that has an adverse effect on the diffraction performance is produced,and the adverse effect is eliminated by superimposing the blazed grating hologram.Meanwhile,the FZP machined by spatial light modulator(SLM)has good morphology and higher diffraction efficiency,which provides a strong guarantee for the application of micro-FZP in computed tomography and solar photovoltaic cells. 展开更多

关键词 femtosend laser Fresnel zone plate spatial light modulator Bessel beam GAAS

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Light-field modulation and optimization near metal nanostructures utilizing spatial light modulators

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作者 Zini Cao Hai Lin +3 位作者 Yuqing Cheng Yixuan Xu Qihuang Gong Guowei Lü 《Chinese Physics B》 SCIE EI CAS CSCD 2024年第10期1-14,共14页

Plasmonic modes within metal nanostructures play a pivotal role in various nanophotonic applications.However,a significant challenge arises from the fixed shapes of nanostructures post-fabrication,resulting in limited... Plasmonic modes within metal nanostructures play a pivotal role in various nanophotonic applications.However,a significant challenge arises from the fixed shapes of nanostructures post-fabrication,resulting in limited modes under ordinary illumination.A promising solution lies in far-field control facilitated by spatial light modulators(SLMs),which enable on-site,real-time,and non-destructive manipulation of plasmon excitation.Through the robust modulation of the incident light using SLMs,this approach enables the generation,optimization,and dynamic control of surface plasmon polariton(SPP)and localized surface plasmon(LSP)modes.The versatility of this technique introduces a rich array of tunable degrees of freedom to plasmon-enhanced spectroscopy,offering novel approaches for signal optimization and functional expansion in this field.This paper provides a comprehensive review of the generation and modulation of SPP and LSP modes through far-field control with SLMs and highlights the diverse applications of this optical technology in plasmon-enhanced spectroscopy. 展开更多

关键词 surface plasmon spatial light modulator dynamic control plasmon-enhanced spectroscopy

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Diffractive characteristics of the liquid crystal spatial light modulator 被引量：3

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作者 曹召良 穆全全 +2 位作者 胡立发 刘永刚 宣丽 《Chinese Physics B》 SCIE EI CAS CSCD 2007年第6期1665-1671,共7页

The liquid crystal spatial light modulator （LC SLM） is very suitable for wavefront correction and optical testing and can produce a wavefront with large phase change and high accuracy. The LC SLM is composed of thou... The liquid crystal spatial light modulator （LC SLM） is very suitable for wavefront correction and optical testing and can produce a wavefront with large phase change and high accuracy. The LC SLM is composed of thousands of pixels and the pixel size and shape have effects on the diffractive characteristics of the LC SLM. This paper investigates the pixel effect on the phase of the wavefront with the scalar diffractive theory. The results show that the maximum optical path difference modulation is 41μm to produce the paraboloid wavefront with the peak to valley accuracy better than λ/10. Effects of the mismatch between the pixel and the period, and black matrix on the diffraction efficiency of the LC SLM are also analysed with the Fresnel phase lens model. The ability of the LC SLM is discussed for optical testing and wavefront correction based on the calculated results. It shows that the LC SLM can be used as a wavefront corrector and a compensator. 展开更多

关键词 liquid crystal spatial light modulator diffraction efficiency PIXEL WAVEFRONT

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A review of liquid crystal spatial light modulators:devices and applications 被引量：12

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作者 Yiqian Yang Andrew Forbes Liangcai Cao 《Opto-Electronic Science》 2023年第8期1-29,共29页

Spatial light modulators,as dynamic flat-panel optical devices,have witnessed rapid development over the past two decades,concomitant with the advancements in micro-and opto-electronic integration technology.In partic... Spatial light modulators,as dynamic flat-panel optical devices,have witnessed rapid development over the past two decades,concomitant with the advancements in micro-and opto-electronic integration technology.In particular,liquid-crystal spatial light modulator(LC-SLM)technologies have been regarded as versatile tools for generating arbitrary optical fields and tailoring all degrees of freedom beyond just phase and amplitude.These devices have gained significant interest in the nascent field of structured light in space and time,facilitated by their ease of use and real-time light manipulation,fueling both fundamental research and practical applications.Here we provide an overview of the key working principles of LC-SLMs and review the significant progress made to date in their deployment for various applications,covering topics as diverse as beam shaping and steering,holography,optical trapping and tweezers,measurement,wavefront coding,optical vortex,and quantum optics.Finally,we conclude with an outlook on the potential opportunities and technical challenges in this rapidly developing field. 展开更多

关键词 liquid crystal spatial light modulators liquid crystal devices structured light HOLOGRAPHY APPLICATIONS

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3D fluorescence emission difference microscopy based on spatial light modulator 被引量：2

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作者 Guangyuan Zhao Zihao Rong +2 位作者 Cuifang Kuang Cheng Zheng Xu Liu 《Journal of Innovative Optical Health Sciences》 SCIE EI CAS 2016年第3期83-92,共10页

We report three-dimensional fluorescence emission difference(3D-FED)microscopy using a spatial light modulator(SLM).Zero phase,0–2
vortex phase and binary 0-pi phase are loaded on the SLM to generate the correspondin... We report three-dimensional fluorescence emission difference(3D-FED)microscopy using a spatial light modulator(SLM).Zero phase,0–2
vortex phase and binary 0-pi phase are loaded on the SLM to generate the corresponding solid,doughnut and z-axis hollow excitation spot,respectively.Our technique achieves super-resolved image by subtracting three di®erently acquired images with proper subtractive factors.Detailed theoretical analysis and simulation tests are proceeded to testify the performance of 3D-FED.Also,the improvement of lateral and axial resolution is demonstrated by imaging 100 nm°uorescent beads.The experiment yields lateral resolution of 140 nm and axial resolution of approximate 380 nm. 展开更多

关键词 SUPER-RESOLUTION fluorescence imaging 3D-FED microscopy spatial light modulator

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Fast generation of controllable equal-intensity four beams based on isosceles triangle multilevel phase grating realized by liquid crystal spatial light modulator 被引量：1

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作者 刘翔 张健 +1 位作者 吴丽莹 甘雨 《Chinese Physics B》 SCIE EI CAS CSCD 2011年第2期287-294,共8页

Liquid crystal spatial light modulator （LCSLM） realizing equal-intensity multiple beams often has some features, i.e., phase valley between two adjacent pixels, flybaek region when phase decreases immediately from 2... Liquid crystal spatial light modulator （LCSLM） realizing equal-intensity multiple beams often has some features, i.e., phase valley between two adjacent pixels, flybaek region when phase decreases immediately from 2~r to 0, and inevitable backplane curvature, which are different from those of most conventional diffractive optical elements （DOEs）, such as static DOEs. For optimal intensity uniformity, equal-intensity multi-beam generation must be considered for these artifacts. We present a tunable-grating method in which the intensity uniformity can be improved by considering the LCSLM artifacts. For instance, tuning phase modulation depth of the grating, called isosceles triangle multilevel phase grating （ITMPG）, can be used not only to improve the intensity uniformity, but also to fast steer four beams with narrow beamwidths, determined by the same effective aperture of ITMPG. Improved intensity uniformity and high relative diffraction efficiency are demonstrated through experiments with phase-only LCSLM. 展开更多

关键词 liquid crystal spatial light modulator phase grating SPLITTER

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Spatial Light Modulator with BSO Crystal and Its Application in Holography

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作者 WANG Wensheng (Changchun College of Optics and Fine Mechanics,Changchun 130022,CHN) 《Semiconductor Photonics and Technology》 CAS 1998年第1期36-39,共4页

The combined use of the photoelectric and electro-optic properties of BSO crystal (Bi 12 SiO 20 ) leads to realize spatial light modulation.Under some condition,BSO crystal can become birefringent depending on... The combined use of the photoelectric and electro-optic properties of BSO crystal (Bi 12 SiO 20 ) leads to realize spatial light modulation.Under some condition,BSO crystal can become birefringent depending on a local illuminance.The relationship between the distributions of an illuminance and a birefringence will be discussed.This spatial light modulator can work in real-time. The experiment shows,in order to increase the sensitivity of BSO crystal,an electric field of 6 kV/cm at an atmosphere pressure of 15×10 5 Pa should be applied to BSO crystal.With BSO we have measured 3-dimensional deformation by means of real-time holography. 展开更多

关键词 BSO Crystal Computer HOLOGRAPHY INTERFEROGRAM spatial light Modulator TV-monitor

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Liquid Crystal Television Spatial Light Modulator

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作者 SHIHongju SHIYongji 《Semiconductor Photonics and Technology》 CAS 1998年第4期197-208,234,共13页

The liquid crystal television spatial light modulator (LCTVSLM) characterized is usable in optical processing applications,e.g.,optical pattern recognition,associative memory, optical computing,correlation detection a... The liquid crystal television spatial light modulator (LCTVSLM) characterized is usable in optical processing applications,e.g.,optical pattern recognition,associative memory, optical computing,correlation detection and optical data processing systems.The array performance and real-time optical correlation applications are reviewed. 展开更多

关键词 Associative Memory Correlation Detection Liquid Crystal Television Optical Computing Optical Data Optical Pattern Recognition spatial light Modulator

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A high-contrast imaging coronagraph for segmented-mirror large aperture telescopes using a spatial light modulator

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作者 Jiangpei Dou Huanyu Dong 《Astronomical Techniques and Instruments》 CSCD 2024年第3期166-170,共5页

The primary mirrors of current and future large telescopes always employ a segmented mirror configuration.The small but non-negligible gaps between neighboring segments cause additional diffraction,which restricts the... The primary mirrors of current and future large telescopes always employ a segmented mirror configuration.The small but non-negligible gaps between neighboring segments cause additional diffraction,which restricts the performance of high-contrast coronagraph.To solve this problem,we propose a coronagraph system based on a single liquid crystal spatial light modulator(SLM).This spatial light modulator is used for amplitude apodization,and its feasibility and potential performance are demonstrated using a laboratory setup using the stochastic parallel gradient descent(SPGD)algorithm to control the spatial light modulator,which is based on point spread function(PSF)sensing and evaluation and optimized for maximum contrast in the discovery working area as a merit function.The system delivers a contrast in the order of 10−6,and shows excellent potential to be used in current and future large aperture telescopes,both on the ground and in space. 展开更多

关键词 Liquid crystal spatial light modulator Amplitude apodized pupil Large aperture telescopes

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Dynamic spatial beam shaping for ultrafast laser processing:a review

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作者 Cyril Mauclair Bahia Najih +2 位作者 Vincent Comte Florent Bourquard Martin Delaigue 《Opto-Electronic Science》 2025年第8期14-43,共30页

This review examines the state-of-the-art in spatial manipulation of ultrafast laser processing using dynamic light modulators,with a particular focus on liquid crystal-based systems.We discuss phase modulation strate... This review examines the state-of-the-art in spatial manipulation of ultrafast laser processing using dynamic light modulators,with a particular focus on liquid crystal-based systems.We discuss phase modulation strategies and highlight the current limitations and challenges in surface and bulk processing.Specifically,we emphasize the delicate balance between high-fidelity beam shaping and energy efficiency,both critical for surface and bulk processing applications.Given the inherent physical limitations of spatial light modulators such as spatial resolution,fill factor,and phase modulation range.We explore techniques developed to bridge the gap between desired intensity distributions and actual experimental beam profiles.We present various laser light modulation technologies and the main algorithmic strategies for obtaining modulation patterns.The paper includes application examples across a wide range of fields,from surgery to surface structuring,cutting,bulk photo-inscription of optical functions,and additive manufacturing,highlighting the significant enhancements in processing speed and precision due to spatial beam shaping.The diverse applications and the technological limitations underscore the need for adapted modulation pattern calculation methods.We discuss several advancements addressing these challenges,involving both experimental and algorithmic developments,including the recent incorporation of artificial intelligence.Additionally,we cover recent progress in phase and pulse front control based on spatial modulators,which introduces an extra control parameter for light excitation with high potential for achieving more controlled processing outcomes. 展开更多

关键词 spatial light modulator ultrafast laser processing spatial beam shaping laser surface structuring laser bullk structuring

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Direct Generation of an Array with 78400 Optical Tweezers Using a Single Metasurface

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作者 Yuqing Wang Yuxuan Liao +9 位作者 Tao Zhang Ye Tian Yujia Wu Wenjun Zhang Wei Zhang Yidong Huang Hui Zhai Wenlan Chen Xue Feng Zhongchi Zhang 《Chinese Physics Letters》 2026年第1期129-133,共5页

Scalability remains a major challenge in building practical fault-tolerant quantum computers.Currently,the largest number of qubits achieved across leading quantum platforms ranges from hundreds to thousands.In atom a... Scalability remains a major challenge in building practical fault-tolerant quantum computers.Currently,the largest number of qubits achieved across leading quantum platforms ranges from hundreds to thousands.In atom arrays,scalability is primarily constrained by the capacity to generate large numbers of optical tweezers,and conventional techniques using acousto-optic deflectors or spatial light modulators struggle to produce arrays much beyond∼10,000 tweezers.Moreover,these methods require additional microscope objectives to focus the light into micrometer-sized spots,which further complicates system integration and scalability.Here,we demonstrate the experimental generation of an optical tweezer array containing 280×280 spots using a metasurface,nearly an order of magnitude more than most existing systems.The metasurface leverages a large number of subwavelength phase-control pixels to engineer the wavefront of the incident light,enabling both large-scale tweezer generation and direct focusing into micron-scale spots without the need for a microscope.This result shifts the scalability bottleneck for atom arrays from the tweezer generation hardware to the available laser power.Furthermore,the array shows excellent intensity uniformity exceeding 90%,making it suitable for homogeneous single-atom loading and paving the way for trapping arrays of more than 10,000 atoms in the near future. 展开更多

关键词 quantum computing optical tweezersand quantum platforms optical tweezers atom arraysscalability atom arrays SCALABILITY spatial light modulators

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Generation of Mathieu beams using angular pupil modulation 被引量：1

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作者 Zhijun Ren Jinping He Yile Shi 《Chinese Physics B》 SCIE EI CAS CSCD 2018年第12期277-281,共5页

By using an amplitude-type spatial light modulator to load angular spectrum of Mathieu function distribution along a narrow annular pupils, the Durnin’s experimental setup is extended to generate various types of Mat... By using an amplitude-type spatial light modulator to load angular spectrum of Mathieu function distribution along a narrow annular pupils, the Durnin’s experimental setup is extended to generate various types of Mathieu beams. As a special type of Mathieu beams, Bessel beams are also generated using this optical setup. Furthermore, the optical morphology of the Mathieu beams family are also presented and analyzed. 展开更多

关键词 diffraction-free beams Mathieu beams angular modulation spatial light modulator

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Steering light into logic patterns with two-dimensional cascaded multimode waveguide

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作者 周海峰 杨建义 +1 位作者 王明华 江晓清 《Chinese Physics B》 SCIE EI CAS CSCD 2007年第3期740-745,共6页

Steering light into logic patterns with two-dimensional cascaded multimode waveguide is demonstrated. By employing the imaging properties of 2D multimode interference （MMI） and partial phase modulation method, the d... Steering light into logic patterns with two-dimensional cascaded multimode waveguide is demonstrated. By employing the imaging properties of 2D multimode interference （MMI） and partial phase modulation method, the design ideas and the implementing methods of the 2^（2×2） bits type spatial logic steering are discussed; therefore the structure of logical pattern is proposed. Numerical simulation is carried out to verify the design in detail by using the beam propagation method. It is expected to realize logic coders by using the integrated optical methods and exploit their potential applications in the field of optical logic. 展开更多

关键词 integrated optics multimode interference spatial light modulators logic patterns

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Active-modulated fluorescence fluctuation super-resolution microscopy with multi-resolution analysis

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作者 Zhijia Liu Duantao Hou +2 位作者 Yiyan Fei Lan Mi Jiong Ma 《Journal of Innovative Optical Health Sciences》 2025年第6期15-26,共12页

A new scheme of super-resolution optical fluctuation imaging(SOFI)is proposed to broaden its application in the high-order cumulant reconstruction by optimizing blinking characteristics,eliminating noise in raw data a... A new scheme of super-resolution optical fluctuation imaging(SOFI)is proposed to broaden its application in the high-order cumulant reconstruction by optimizing blinking characteristics,eliminating noise in raw data and applying multi-resolution analysis in cumulant reconstruction.A motor-driven rotating mask optical modulation system is designed to adjust the excitation lightfield and allows for fast deployment.Active-modulated fluorescence fluctuation superresolution microscopy with multi-resolution analysis(AMF-MRA-SOFI)demonstrates enhanced resolution ability and reconstruction quality in experiments performed on sample of conventional dyes,achieving a resolution of 100 nm in the fourth order compared to conventional SOFI reconstruction.Furthermore,our approach combining expansion super-resolution achieved a resolution at-57 nm. 展开更多

关键词 Super-resolution microscopy SOFI multi-resolution analysis spatial light modulation

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Vectorial Digitelligent Optics for High-Resolution Non-Line-of-Sight Imaging 被引量：1

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作者 Yinghui Guo Yunsong Lei +8 位作者 Mingbo Pu Fei Zhang Qi Zhang Xiaoyin Li Runzhe Zhang Zhibin Zhao Rui Zhou Yulong Fan Xiangang Luo 《Engineering》 2025年第2期70-78,共9页

Object imaging beyond the direct line of sight is significant for applications in robotic vision,remote sensing,autonomous driving,and many other areas.Reconstruction of a non-line-of-sight(NLOS)screen is a complex in... Object imaging beyond the direct line of sight is significant for applications in robotic vision,remote sensing,autonomous driving,and many other areas.Reconstruction of a non-line-of-sight(NLOS)screen is a complex inverse problem that comes with ultrafast time-resolved imager requirements and substantial computational demands to extract information from the multi-bounce scattered light.Consequently,the echo signal always suffers from serious deterioration in both intensity and shape,leading to limited resolution and image contrast.Here,we propose a concept of vectorial digitelligent optics for high-resolution NLOS imaging to cancel the wall’s scattering and refocus the light onto hidden targets for enhanced echo.In this approach,the polarization and wavefront of the laser spot are intelligently optimized via a feedback algorithm to form a near-perfect focusing pattern through a random scattering wall.By raster scanning the focusing spot across the object’s surface within the optical-memory-effect range of the wall,we obtain nearly diffraction-limited NLOS imaging with an enhanced signal-to-noise ratio.Our experimental results demonstrate a resolution of 0.40 mm at a distance of 0.35 m,reaching the diffraction limit of the system.Furthermore,we demonstrate that the proposed method is feasible for various complex NLOS scenarios.Our methods may open an avenue for active imaging,communication,and laser wireless power transfer. 展开更多

关键词 Non-line-of-sight imaging Vectorial digitelligent optics spatial light modulator Digital optics Wavefront shaping Metasurface

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Passive silicon nitride integrated photonics for spatial intensity and phase sensing of visible light

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作者 CHRISTOPH STOCKINGER JORG S.EISMANN +2 位作者 NATALE PRUITI MARC SOREL PETER BANZER 《Photonics Research》 2025年第6期1699-1708,共10页

Phase is an intrinsic property of light,and thus a crucial parameter across numerous applications in modern optics.Various methods exist for measuring the phase of light,each presenting challenges and limitationsfrom ... Phase is an intrinsic property of light,and thus a crucial parameter across numerous applications in modern optics.Various methods exist for measuring the phase of light,each presenting challenges and limitationsfrom the mechanical stability requirements of free-space interferometers to the computational complexity usually associated with methods based on spatial light modulators.Here,we utilize a passive photonic integrated circuit to spatially probe phase and intensity distributions of free-space light beams.Phase information is encoded into intensity through a set of passive on-chip interferometers,allowing conventional detectors to retrieve the phase profile of light through single-shot intensity measurements.Furthermore,we use silicon nitride as a material platform for the waveguide architecture,facilitating multi-spectral utilization in the visible spectral range.Our approach for fast,multi-spectral,and spatially resolved measurement of intensity and phase enables a wide variety of potential applications,ranging from microscopy to free-space optical communication. 展开更多

关键词 visible light free space interferometers mechanical stability spatial light modulators spatial intensity sensing phase sensing phase parameter passive silicon nitride integrated photonics

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Arbitrary topological charge vortex beams from carbon dots random lasers 被引量：3

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作者 Xiang-Dong Wang Xiao-Bo Mi +6 位作者 Jiu-Ru He Feng-Ying Ma Jun-Qiao Wang Li Song Yong-Qiang Zhang Si-Yu Lu Yong-Sheng Hu 《Rare Metals》 SCIE EI CAS CSCD 2024年第8期3844-3853,共10页

Vortex beams have attracted great attention due to their promising applications in the fields of high-capacity optical communication,optical micromanipulation,and quantum information processing.Here,we demonstrate vor... Vortex beams have attracted great attention due to their promising applications in the fields of high-capacity optical communication,optical micromanipulation,and quantum information processing.Here,we demonstrate vortex beams with flexible control of the topological charge and modes in a carbon dots random laser for the first time.Vortex beams with different types,including the Laguerre-Gaussian(LG),Bessel-Gaussian(BG),LG-superposition,and polarized vortex beams with topological charges up to 50,have been successfully achieved.Moreover,vortex beams can be well realized in carbon dots random lasers with different emission wavelengths covering from 465 to 612 nm.This work would not only enrich the types of vortex laser,especially for solution-processable lasers,but also provide a new route to realizing multicolor and wavelength-tunable vortex lasers. 展开更多

关键词 Carbon dots Random lasers Vortex beam Topological charge spatial light modulator

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Generating large topological charge Laguerre–Gaussian beam based on 4K phase-only spatial light modulator 被引量：3

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作者 Ruijian Li Yuan Ren +5 位作者 Tong Liu Chen Wang Zhengliang Liu Jie Zhao Rusheng Sun Ziyang Wang 《Chinese Optics Letters》 SCIE EI CAS CSCD 2022年第12期6-11,共6页

The resolution of the spatial light modulator(SLM)screen and the encoding algorithm of the computer-generated hologram are the primary limiting factors in the generation of large topological charge vortex beams.This p... The resolution of the spatial light modulator(SLM)screen and the encoding algorithm of the computer-generated hologram are the primary limiting factors in the generation of large topological charge vortex beams.This paper attempts to solve these problems by improving both the hardware and the algorithm.Theoretically,to overcome the limitations of beam waist radius,the amplitude profile function of large topological charge Laguerre–Gaussian(LG)beam is properly improved.Then,an experimental system employing a 4K phase-only SLM is set up,and the LG beams with topological charge up to 1200 are successfully generated.Furthermore,we discuss the effect of different beam waist radii on the generation of LG beams.Additionally,the function of the LG beam is further improved to generate an LG beam with a topological charge as high as1400.Our results set a new benchmark for generating large topological charge vortex beams,which can be widely used in precise measurement,sensing,and communication. 展开更多

关键词 spatial light modulator Laguerre±Gaussian beam computer-generated hologram large topological charge

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