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1,393 results on '"Wang, Pi"'

1. Self-locked broadband Raman-electro-optic microcomb

Author

Wan, Shuai, Wang, Pi-Yu, Li, Ming, Ma, Rui, Niu, Rui, Sun, Fang-Wen, Bo, Fang, Guo, Guang-Can, and Dong, Chun-Hua

Subjects
Physics - Optics
Abstract

Optical frequency combs (OFCs), composed of equally spaced frequency tones, have spurred advancements in communications, spectroscopy, precision measurement and fundamental physics research. A prevalent method for generating OFCs involves the electro-optic (EO) effect, i.e., EO comb, renowned for its rapid tunability via precise microwave field control. Recent advances in integrated lithium niobate (LN) photonics have greatly enhanced the efficiency of EO effect, enabling the generation of broadband combs with reduced microwave power. However, parasitic nonlinear effects, such as Raman scattering and four-wave mixing, often emerge in high quality nonlinear devices, impeding the expansion of comb bandwidth and the minimization of frequency noise. Here, we tame these nonlinear effects and present a novel type of OFC, i.e., the self-locked Raman-electro-optic (REO) microcomb by leveraging the collaboration of EO, Kerr and Raman scattering processes. The spectral width of the REO microcomb benefits from the Raman gain and Kerr effect, encompassing nearly 1400 comb lines spanning over 300 nm with a fine repetition rate of 26.03 GHz, much larger than the pure EO combs. Remarkably, the system can maintain a self-locked low-noise state in the presence of multiple nonlinearities without the need for external active feedback. Our approach points to a direction for improving the performance of microcombs and paves the way for exploring new nonlinear physics, such as new laser locking techniques, through the collaboration of inevitable multiple nonlinear effects in integrated photonics.

Published
2024

8. Photorefraction-assisted self-emergence of dissipative Kerr solitons

Author

Wan, Shuai, Wang, Pi-Yu, Ma, Rui, Wang, Zheng-Yu, Niu, Rui, He, De-Yong, Guo, Guang-Can, Bo, Fang, Liu, Junqiu, and Dong, Chun-Hua

Subjects
Physics - Optics
Abstract

Generated in high-Q optical microresonators, dissipative Kerr soliton microcombs constitute broadband optical frequency combs with chip sizes and repetition rates in the microwave to millimeter-wave range. For frequency metrology applications such as spectroscopy, optical atomic clocks and frequency synthesizers, octave-spanning soliton microcombs generated in dispersion optimized microresonator are required, which allow self-referencing for full frequency stabilization. In addition, field-deployable applications require the generation of such soliton microcombs simple, deterministic, and reproducible. Here, we demonstrate a novel scheme to generate self-emerging solitons in integrated lithium niobate microresonators. The single soliton features a broadband spectral bandwidth with dual dispersive waves, allowing 2f-3f self-referencing. Via harnessing the photorefractive effect of lithium niobate to significantly extend the soliton existence range, we observe a spontaneous yet deterministic single-soliton formation. The soliton is immune to external perturbation and can operate continuously over 13 hours without active feedback control. Finally, via integration with a pre-programed DFB laser, we demonstrate turnkey soliton generation. With further improvement of microresonator Q and hybrid integration with chip-scale laser chips, compact soliton microcomb devices with electronic actuation can be created, which can become central elements for future LiDAR, microwave photonics and optical telecommunications., Comment: 9 pages, 4 figures

Published
2023

26. Design of novel microstrip patch antenna for millimeter-wave B5G communications.

Author

Tiang, Jun Jiat, Alsekait, Deema Mohammed, Khan, Imran, Wang, Pi-Chung, and Madsen, Dag Øivind

Subjects
ANTENNA design, ANTENNAS (Electronics), MICROSTRIP resonators, WIRELESS communications, DATA transmission systems, MICROSTRIP antennas
Abstract

Introduction : The simplicity of integration and co-type features of microstrip antennas make them intriguing for a broad variety of applications, particularly with the growing usage of mmWave bands in wireless communications and the constant rise in data transfer in communication situations. Method: This paper proposes a novel design of micrstrip patch antenna for mmWave B5G communication. The main idea is to realize four-mode antenna the operates in four different frequencies. The geometry is rectangular patch whose resonance frequency is adjusted by varying the walls and pins of the structure. Results: Simulation results show that the proposed antenna design has improved fractional bandwidth and performance as compared with existing antennas. Discussion: The observed curve indicates that, in agreement with the modeling findings, there are four resonance spots in the operational frequency region of 2.5–3.4 GHz: 2.68 GHz, 2.9 GHz, 3.05 GHz, and 3.3 GHz, which correspond to TM1/2,0, TM3/2,0, and TMRS, respectively, and TM1/2,2 four resonant modes, within the frequency range, the observed antenna gain peak is around 9 dBi, which is consistent with the measured results. [ABSTRACT FROM AUTHOR]

Published
2024
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27. A chiral supramolecular liquid crystal based on pillararene and its application in information encryption.

Author

Liang, Bicong, Cheng, Yujie, Ma, Jiaxin, Jia, Lan, Zheng, Qiang, Wang, Pi, and Xia, Danyu

Subjects
LIQUID crystals, INFORMATION technology security, FLUORESCENCE
Abstract

A chiral supramolecular liquid crystal based on a pillararene mesogen was constructed. The regulation of liquid crystal behavior was achieved through the host–guest interactions between the pillararene-based mesogen and a tetraphenylethylene-containing guest. In addition, this supramolecular liquid crystal system, showing pH-responsive fluorescence emission character, was applied as an information encryption material capable of storing multiple levels of distinct information, thereby enriching the application of liquid crystal materials in the field of information security. [ABSTRACT FROM AUTHOR]

Published
2024
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28. A Supramolecular Polymer Network Based on Chitosan and Porphyrin and Its Application as an Adsorbent for Selective Removal of Dyes from Water.

Author

Cheng, Yujie, Liang, Bicong, Chao, Jianbin, Wei, Xuehong, Li, Si‐Dian, Wang, Pi, and Xia, Danyu

Subjects
BASIC dyes, ORGANIC dyes, WASTEWATER treatment, CHITOSAN, PORPHYRINS, POLYMER networks, SUPRAMOLECULAR polymers
Abstract

Environmentally friendly, high adsorption efficiency, and recyclable adsorbents meet the actual needs of organic dye wastewater treatment. Driven by noncovalent interactions between chitosan (CS) and 5,10,15,20‐tetra(4‐hydroxyphenyl) porphyrin sodium (THPPNa) under acidic conditions, a supramolecular polymer network is constructed. The supramolecular polymer network is applied as an excellent adsorbent for the removal of organic dyes from water with high efficiency. In addition, the supramolecular adsorbent shows excellent selectivity for the removal of organic anionic dyes from the mixtures of organic anionic and cationic dyes in water. Furthermore, the removal efficiency of anionic dyes of the network adsorbent keeps over 95% even after five adsorption–desorption cycles, indicating its reusability. This supramolecular polymer network shows its great potential as a low‐cost, effective, and selective adsorbent for removing organic dyes from water. [ABSTRACT FROM AUTHOR]

Published
2024
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29. A clusteroluminescent supramolecular polymer network constructed by pillararene and its application in information encryption.

Author

Zhang, Meiru, Cheng, Yujie, Zhang, Ting, Liang, Bicong, Wei, Xuehong, Wang, Pi, Xia, Danyu, and Yan, Xuzhou

Subjects
FLUORESCENT polymers, POLYMER solutions, POLYMER colloids, METHYL methacrylate, FLUORESCENCE quenching, SUPRAMOLECULAR polymers, POLYMER networks
Abstract

Clusterization‐triggered emissive (CTE) materials have attracted great attention in recent years. The regulation of the emission property of materials with CTE property through supramolecular interactions is an excellent strategy for the construction of smart fluorescent materials. In this work, we have prepared a regulatable supramolecular polymer network with CTE properties through pillararene‐based host−guest interactions. The pillar[5]arene‐grafted poly(methyl methacrylate) (PMMA) showed a classic CTE character. After adding Brooker's merocyanine‐grafted polymer to the solution of the pillar[5]arene‐containing PMMA, the supramolecular polymer network gel formed by the host−guest interactions between pillararene and Brooker's merocyanine guest. This supramolecular network showed brighter fluorescence than the pillar[5]arene‐grafted PMMA in the solid state. In addition, the fluorescence emission of the supramolecular network can be further regulated by pH conditions. After adding an acid, the Brooker's merocyanine‐containing guest polymer was protonated, and the supramolecular network changed to a protonated network through host−guest interactions between protonated Brooker's merocyanine guest and pillararene. Interestingly, the fluorescence was quenched when the supramolecular network turned into the protonated network. After adding a base, the protonated network can convert back to the original network, along with recovery of the fluorescence. Therefore, the regulation of the fluorescence of the supramolecular polymer materials with CTE was successfully realized by pillararene‐based host−guest interactions. Furthermore, this tailorable fluorescent supramolecular polymer network system was applied as an information encryption material. [ABSTRACT FROM AUTHOR]

Published
2024
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38. An efficient algorithm for resource optimization in TWDM passive optical network using a C-RAN.

Author

Tiang, Jun Jiat, Chung, Hee Chan, Choi, Jaeyoung, Khan, Imran, Alshehri, Asma, Wang, Pi-Chung, Hameed, Ibrahim A., Nalbant, Kemal Gokhan, and Cvitic, Ivan

Subjects
OPTICAL communications, LIGHT transmission, TELECOMMUNICATION systems, OPTOELECTRONICS, PHOTONICS
Abstract

The traditional base station in C-RAN is divided into three parts: a pool of centralized baseband units (BBUs), a fronthaul network that links the BBUs and remote radio units (RRUs), and RRUs. This paper proposes a novel cooperative algorithm for resource optimization in a time-wavelength division multiplexed (TWDM) passive optical network (PON) incorporating a cloud radio access network (C-RAN). First, a joint collaborative strategy is deployed to optimize cooperative caching and transmission in the wireless and optical domains. Then, the quality of experience (QoE) is improved by bandwidth configuration and caching. Simulation results show that the average throughput of the proposed QoE-aware video cooperative caching and transmission mechanism (QACCTM) algorithm is approximately 30% higher than that of other algorithms. Compared with the relative average residual clutter power (RARCP) and quality-aware wireless edge caching (QAWEC) algorithms, the proposed QACCTM algorithm reduces the access delay by approximately 27.1% and 15.9%, respectively. [ABSTRACT FROM AUTHOR]

Published
2024
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