Spectral imaging and spectral LIDAR systems: moving toward compact nanophotonics-based sensing

Li, Nanxi; Ho, Chong Pei; Wang, I-Ting; Pitchappa, Prakash; Fu, Yuan Hsing; Zhu, Yao; Lee, Lennon Y. T.

doi:10.1515/nanoph-2020-0625

Cited by 36 publications

(16 citation statements)

References 194 publications

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“…[143] However, for most existing subwavelength structures, the function is usually fixed once the structure is fabricated. The emergence of reconfigurable subwavelength structures enables lightweight, integrated, and flat hardware for optical/quantum communication and computation, light detection and ranging (LiDAR) for autonomous vehicles, [144,145] or other dynamic display applications such as augmented reality and holography. [146,147] Mechanical actuation offers an effective way to tune the optical properties of structures by reconfiguring their position, orientation, or spatial arrangement.…”

Section: Structures For Reconfigurable Functionalitiesmentioning

confidence: 99%

Electromagnetic Architectures: Structures, Properties, Functions and Their Intrinsic Relationships in Subwavelength Optics and Electromagnetics

Luo

Guo

et al. 2021

Advanced Photonics Research

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In recent years, with the development of photonic crystals, metamaterials, metasurfaces, and other related disciplines, the relationship between the structures and functionalities of artificial optical/electromagnetic materials and devices has become a research hotspot. This article reviews the optical/electromagnetic properties and performance of typical artificial micro/nanostructures. Based on the analogy of mechanics and optics/electromagnetism, the concept of "Electromagnetic Architectures" is proposed. In particular, we reviewed several typical methods for the study of optical/electromagnetic structural-functional relationships, including semi-classical analytical models, heuristic optimization methods, deep neural networks, topological optimization methods, etc. The viewpoint of this paper may push further researches on the structural-functional relationship of artificially structured materials and devices, and find broad application prospects in imaging, communication, photonic chips, among many others.

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Section: Structures For Reconfigurable Functionalitiesmentioning

confidence: 99%

Electromagnetic Architectures: Structures, Properties, Functions and Their Intrinsic Relationships in Subwavelength Optics and Electromagnetics

Luo

Guo

et al. 2021

Advanced Photonics Research

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“…Range sensors are devices that capture the three-dimensional (3-D) structure of the world from the viewpoint of the sensor, usually measuring distances to closest targets [1][2][3][4][5]. These measurements could be across a scanning plane or a 3-D image with distance measurements at every point.…”

Section: Introductionmentioning

confidence: 99%

Alien Pulse Rejection in Concurrent Firing LIDAR

Kim¹,

Eom

Park

2022

Remote Sensing

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Mobile pulse light detection and ranging (LIDAR) is an essential component of autonomous vehicles. The obstacle detection function of autonomous vehicles requires very low failure rates. With an increasing number of autonomous vehicles equipped with LIDAR sensors for use in the detection and avoidance of obstacles and for safe navigation through the environment, the probability of mutual interference becomes an important issue. The reception of foreign laser pulses can lead to problems such as ghost targets or a reduced signal-to-noise ratio (SNR). In this paper, we presented the probability that any LIDAR sensor would interfere mutually by considering spatial and temporal overlaps. We presented some typical mutual interference scenarios in real-world vehicle applications, as well as an analysis of the interference mechanism. We proposed a new multi-plane LIDAR sensor which used coded pulse streams encoded by carrier-hopping prime code (CHPC) technology to measure surrounding perimeters without mutual interference. These encoded pulses utilized a random azimuth identification and checksum with random spreading code. We modeled the entirety of the LIDAR sensor operation in Synopsys OptSim and represented the alien pulse elimination functionality obtained via modeling and simulation.

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“…he spectral imaging system that integrates spectroscopy and imaging technology plays an indispensable role in many analytical tools [1], [2]. Spectral imaging technology meets the requirements for specific scenarios, which makes its application very wide, including aerial remote sensing [3], biometric identification [4], medical diagnosis [5], environmental monitoring [6], [7], astronomical observation [8], and food detection [9], [10]. Due to the capability of target recognition with high precision, several different types of spectral imaging systems have been developed, which are divided by the number of spectral channels.…”

Section: Introductionmentioning

confidence: 99%

Planar Hyperspectral Imager With Small Smile and Keystone Based on Two Metasurfaces

et al. 2022

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Metasurfaces, which are ultrathin planar artificial materials flexibly controlling the phase, amplitude, and polarization of the light, have facilitated the high integration and miniaturization of hyperspectral imaging systems. However, the pushbroom hyperspectral imaging systems based on metasurfaces usually face the large smile and keystone, which reduces the spectral uniformity and the fidelity of the spectral information. Moreover, the employment of many metasurfaces would cause manufacturing difficulties. In this paper, a planar hyperspectral imager only using two metasurfaces is proposed to achieve a spectral resolution of 3.5 nm in 850-1000 nm band with the near diffraction-limited focusing capability, and its maximum of smile and keystone reach to 124.4 μm and 33.6 μm for the image plane size of 4.75 mm × 1.35 mm and pixel size of 26 μm × 26 μm, respectively. This imager can provide a promising avenue for portable environmental monitoring systems and wearable electronic consumer products.

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Spectral imaging and spectral LIDAR systems: moving toward compact nanophotonics-based sensing

Cited by 36 publications

References 194 publications

Electromagnetic Architectures: Structures, Properties, Functions and Their Intrinsic Relationships in Subwavelength Optics and Electromagnetics

Electromagnetic Architectures: Structures, Properties, Functions and Their Intrinsic Relationships in Subwavelength Optics and Electromagnetics

Alien Pulse Rejection in Concurrent Firing LIDAR

Planar Hyperspectral Imager With Small Smile and Keystone Based on Two Metasurfaces

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