This comprehensive review embarks on an exploration of quantum radar and quantum LiDAR, guided by two primary objectives: enhancing sensitivity through quantum resources and
This work, published in Science, opens the door to compact, high-performance entanglement systems that can be integrated into quantum photonic circuits, enabling more reliable
This review explores the exceptional growth of optoelectronics and the pivotal breakthroughs that have led to a quantum leap in its capabilities. Novel materials, including two
In this review, we focus on the latest advances in implementing quantum communication on quantum photonic chips.
Therefore, in a broad sense, all these optoelectronic devices are important components of optoelectronic sensors. On this basis, it is of long-term significance to improve the working efficiency
Entanglement is a key resource for quantum computing, sensing, and communication, but it is susceptible to decoherence. To address this,
Abstract—This paper presents a study on quantum radar tech-nology developments, design Consideration for its integration, and quantum radar cross section (QRCS) based on quantum
Encoded-fusion-based quantum computation.— Let us introduce the encoded-fusion-based quantum computing (EFBQC). In EFBQC, the process to create a fusion net- work and logical
Modern quantum technology opens up many new areas of application. But it also harbors risks. Due to their enormous computing power,
We propose a fault-tolerant quantum computation scheme in a measurement-based manner with finite-sized entangled resource states and encoded fusion scheme with linear optics.
Abstract Optical chips for quantum photonics are cutting-edge technology, merging photonics and quantum mechanics to manipulate light at the quantum level. These chips are crucial
Integrating volatile optical sensing with non-volatile memory is crucial for neuromorphic vision applications. Wang et al. propose a homogeneous integration scheme that combines
Here, we present fusion-based quantum computation, a model for fault tolerant quantum computing constructed from physical primitives readily accessible in photonic systems.
Researchers at the University of Chicago have developed a new method for enhancing quantum information systems by integrating trapped atom
Here, we provide an overview of the advances in quantum photonic chips for quantum communication, beginning with a summary of the prevalent photonic integrated fabrication platforms
Abstract: The entangled quantum radar applies the quantum information technology to the radar sensing network and detection system. The dynamic particle changes and optical
This review proposes bio-inspired energy-efficient in-sensor computing utilizing emerging optoelectronic memristors, examining neural network architectures (fully connected/convolutional
Thus, all optical quantum communication networks rely crucially on the availability of suitable quantum-light sources. Such light sources with close to ideal optical and quantum optical
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Perovskite quantum dot superlattices have emerged as a promising platform for studying collective optical phenomena. Here the authors report collective photoluminescence blinking and
These integrated platforms are designed to manipulate and control light at the quantum level, offering unprecedented capabilities for a wide range of applications, including quantum
Zhong, N. Y. et al. Spectral-efficient frequency-division photonic millimeter-wave integrated sensing and communication system using improved sparse LFM sub-bands fusion.
Integrating functional materials with photonic and optoelectronic technologies has revolutionized medical diagnostics, enhancing imaging and
We summarize the performance of recently-proposed methods for achieving fault tolerant fusions-based quantum computation with high tolerance to qubit loss, specifically aimed at photonic
Optoelectronics is entering an exciting period. There are intense device development activities driven by applications ranging from
We propose a hybrid optoelectronic integrating scheme for QKD modules based on chip-on-board technology, which co-packages the QKD-encoding photonic chip and its required electronic
The quantum fusion of two independent 10-user networks is demonstrated based on multi-user entanglement swapping. Active temporal and
This Review discusses the state-of-the-art in optical trapping at the nanoscale, with an emphasis on some of the most promising advances such as controlled manipulation and assembly of
The invention discloses a dual-beacon optoelectronic fusion terahertz communication tracking and aiming system and method, which relate to the technical field of terahertz communication and solve
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