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Your search keyword '"Qiu, Cheng Wei"' showing total 41 results
Start Over Author "Qiu, Cheng Wei" Journal nano letters
41 results on '"Qiu, Cheng Wei"'

1. Ion Write Microthermotics: Programing Thermal Metamaterials at the Microscale

Author

Choe, Hwan Sung, Prabhakar, Radhika, Wehmeyer, Geoff, Allen, Frances I, Lee, Woochul, Jin, Lei, Li, Ying, Yang, Peidong, Qiu, Cheng-Wei, Dames, Chris, Scott, Mary, Minor, Andrew, Bahk, Je-Hyeong, and Wu, Junqiao

Subjects
Physical Sciences, Engineering, Classical Physics, Bioengineering, Thermal metamaterial, thermotics, thermal conductivity, thermal cloak, ion irradiation, Nanoscience & Nanotechnology
Abstract

Considerable advances in manipulating heat flow in solids have been made through the innovation of artificial thermal structures such as thermal diodes, camouflages, and cloaks. Such thermal devices can be readily constructed only at the macroscale by mechanically assembling different materials with distinct values of thermal conductivity. Here, we extend these concepts to the microscale by demonstrating a monolithic material structure on which nearly arbitrary microscale thermal metamaterial patterns can be written and programmed. It is based on a single, suspended silicon membrane whose thermal conductivity is locally, continuously, and reversibly engineered over a wide range (between 2 and 65 W/m·K) and with fine spatial resolution (10-100 nm) by focused ion irradiation. Our thermal cloak demonstration shows how ion-write microthermotics can be used as a lithography-free platform to create thermal metamaterials that control heat flow at the microscale.

Published
2019

7. Tailoring Topological Transitions of Anisotropic Polaritons by Interface Engineering in Biaxial Crystals

Author

Zeng, Yali, primary, Ou, Qingdong, additional, Liu, Lu, additional, Zheng, Chunqi, additional, Wang, Ziyu, additional, Gong, Youning, additional, Liang, Xiang, additional, Zhang, Yupeng, additional, Hu, Guangwei, additional, Yang, Zhilin, additional, Qiu, Cheng-Wei, additional, Bao, Qiaoliang, additional, Chen, Huanyang, additional, and Dai, Zhigao, additional

Published
2022
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8. Superhybrid Mode-Enhanced Optical Torques on Mie-Resonant Particles

Author

Shi, Yuzhi, primary, Zhou, Lei-Ming, additional, Liu, Ai Qun, additional, Nieto-Vesperinas, Manuel, additional, Zhu, Tongtong, additional, Hassanfiroozi, Amir, additional, Liu, Jingquan, additional, Zhang, Hui, additional, Tsai, Din Ping, additional, Li, Hang, additional, Ding, Weiqiang, additional, Zhu, Weiming, additional, Yu, Ye Feng, additional, Mazzulla, Alfredo, additional, Cipparrone, Gabriella, additional, Wu, Pin Chieh, additional, Chan, C. T., additional, and Qiu, Cheng-Wei, additional

Published
2022
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17. Atomically Thin Noble Metal Dichalcogenides for Phase-Regulated Meta-optics

Author

Wang, Yingwei, primary, Deng, Zi-Lan, additional, Hu, Dejiao, additional, Yuan, Jian, additional, Ou, Qingdong, additional, Qin, Fei, additional, Zhang, Yinan, additional, Ouyang, Xu, additional, Li, Yue, additional, Peng, Bo, additional, Cao, Yaoyu, additional, Guan, BaiOu, additional, Zhang, Yupeng, additional, He, Jun, additional, Qiu, Cheng-Wei, additional, Bao, Qiaoliang, additional, and Li, Xiangping, additional

Published
2020
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18. Deuterogenic Plasmonic Vortices

Author

Yang, Yuanjie, primary, Wu, Lixiang, additional, Liu, Yidong, additional, Xie, Dekun, additional, Jin, Zhongwei, additional, Li, Jiafang, additional, Hu, Guangwei, additional, and Qiu, Cheng-Wei, additional

Published
2020
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21. Reconfigurable Photon Sources Based on Quantum Plexcitonic Systems

Author

You, Jia-Bin, primary, Xiong, Xiao, additional, Bai, Ping, additional, Zhou, Zhang-Kai, additional, Ma, Ren-Min, additional, Yang, Wan-Li, additional, Lu, Yu-Kun, additional, Xiao, Yun-Feng, additional, Png, Ching Eng, additional, Garcia-Vidal, Francisco J., additional, Qiu, Cheng-Wei, additional, and Wu, Lin, additional

Published
2020
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25. Noninterleaved Metasurface for (26-1) Spin- and Wavelength-Encoded Holograms

Author

Jin, Lei, primary, Dong, Zhaogang, additional, Mei, Shengtao, additional, Yu, Ye Feng, additional, Wei, Zhun, additional, Pan, Zhenying, additional, Rezaei, Soroosh Daqiqeh, additional, Li, Xiangping, additional, Kuznetsov, Arseniy I., additional, Kivshar, Yuri S., additional, Yang, Joel K. W., additional, and Qiu, Cheng-Wei, additional

Published
2018
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29. Broadband Achromatic Metasurface-Refractive Optics

Author

Chen, Wei Ting, primary, Zhu, Alexander Y., additional, Sisler, Jared, additional, Huang, Yao-Wei, additional, Yousef, Kerolos M. A., additional, Lee, Eric, additional, Qiu, Cheng-Wei, additional, and Capasso, Federico, additional

Published
2018
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31. Single-Layer Metasurface with Controllable Multiwavelength Functions

Author

Shi, Zhujun, primary, Khorasaninejad, Mohammadreza, additional, Huang, Yao-Wei, additional, Roques-Carmes, Charles, additional, Zhu, Alexander Y., additional, Chen, Wei Ting, additional, Sanjeev, Vyshakh, additional, Ding, Zhao-Wei, additional, Tamagnone, Michele, additional, Chaudhary, Kundan, additional, Devlin, Robert C., additional, Qiu, Cheng-Wei, additional, and Capasso, Federico, additional

Published
2018
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32. Trichromatic and Tripolarization-Channel Holography with Noninterleaved Dielectric Metasurface

Author

Hu, Yueqiang, Li, Ling, Wang, Yujie, Meng, Min, Jin, Lei, Luo, Xuhao, Chen, Yiqin, Li, Xin, Xiao, Shumin, Wang, Hanbin, Luo, Yi, Qiu, Cheng-Wei, and Duan, Huigao

Abstract

Metasurfaces hold great potentials for advanced holographic display with extraordinary information capacity and pixel sizes in an ultrathin flat profile. A dual-polarization channel to encode two independent phase profiles or spatially multiplexed meta-holography by interleaved metasurfaces are captivated popular solutions to projecting multiplexed and vectorial images. However, the intrinsic limit of orthogonal polarization-channels, their crosstalk due to coupling between meta-atoms, and interleaving-induced degradation of efficiency and reconstructed image quality set great barriers for sophisticated meta-holography from being widely adopted. Here we report a noninterleaved TiO2metasurface holography, and three distinct phase profiles are encoded into three orthogonal polarization bases with almost zero crosstalk. The corresponding three independently constructed intensity profiles are therefore assigned to trichromatic (RGB) beams, resulting in high-quality and high-efficiency vectorial meta-holography in the whole visible regime. Our strategy presents an unconventionally advanced holographic scheme by synergizing trichromatic colors and tripolarization channels, simply realized with a minimalist noninterleaved metasurface. Our work unlocks the metasurface’s potentials on massive information storage, polarization optics, polarimetric imaging, holographic data encryption, etc.

Published
2020
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35. Visible Surface Plasmon Modes in Single Bi2Te3 Nanoplate

Author

Zhao, Meng, primary, Bosman, Michel, additional, Danesh, Mohammad, additional, Zeng, Minggang, additional, Song, Peng, additional, Darma, Yudi, additional, Rusydi, Andrivo, additional, Lin, Hsin, additional, Qiu, Cheng-Wei, additional, and Loh, Kian Ping, additional

Published
2015
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37. Hybridized Hyperbolic Surface Phonon Polaritons at α-MoO3and Polar Dielectric Interfaces

Author

Zhang, Qing, Ou, Qingdong, Hu, Guangwei, Liu, Jingying, Dai, Zhigao, Fuhrer, Michael S., Bao, Qiaoliang, and Qiu, Cheng-Wei

Abstract

Surface phonon polaritons (SPhPs) in polar dielectrics offer new opportunities for infrared nanophotonics. However, bulk SPhPs inherently propagate isotropically with limited photon confinement, and how to collectively realize ultralarge confinement, in-plane hyperbolicity, and unidirectional propagation remains elusive. Here, we report an approach to solve the aforementioned issues of bulk SPhPs in one go by constructing a heterostructural interface between biaxial van der Waals material (e.g., α-MoO3) and bulk polar dielectric (e.g., SiC, AlN, and GaN). Because of anisotropy-oriented mode couplings, the hybridized SPhPs with a large confinement factor (>100) show in-plane hyperbolicity that has been switched to the orthogonal direction as compared to that in natural α-MoO3. More interestingly, this proof of concept allows steerable and unidirectional polariton excitation by suspending α-MoO3on patterned SiC air cavities. Our finding exemplifies a generalizable framework to manipulate the flow of nanolight in many other hybrid systems consisting of anisotropic materials and polar dielectrics.

Published
2021
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38. Hybridized Hyperbolic Surface Phonon Polaritons at α-MoO 3 and Polar Dielectric Interfaces.

Author

Zhang Q, Ou Q, Hu G, Liu J, Dai Z, Fuhrer MS, Bao Q, and Qiu CW

Abstract

Surface phonon polaritons (SPhPs) in polar dielectrics offer new opportunities for infrared nanophotonics. However, bulk SPhPs inherently propagate isotropically with limited photon confinement, and how to collectively realize ultralarge confinement, in-plane hyperbolicity, and unidirectional propagation remains elusive. Here, we report an approach to solve the aforementioned issues of bulk SPhPs in one go by constructing a heterostructural interface between biaxial van der Waals material (e.g., α-MoO 3 ) and bulk polar dielectric (e.g., SiC, AlN, and GaN). Because of anisotropy-oriented mode couplings, the hybridized SPhPs with a large confinement factor (>100) show in-plane hyperbolicity that has been switched to the orthogonal direction as compared to that in natural α-MoO 3 . More interestingly, this proof of concept allows steerable and unidirectional polariton excitation by suspending α-MoO 3 on patterned SiC air cavities. Our finding exemplifies a generalizable framework to manipulate the flow of nanolight in many other hybrid systems consisting of anisotropic materials and polar dielectrics.

Published
2021
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39. Optical Bound States in Continuum in MoS 2 -Based Metasurface for Directional Light Emission.

Author

Muhammad N, Chen Y, Qiu CW, and Wang GP

Abstract

High quality factor ( Q -factor) and strong field localization in nanostructures is a newly emerged direction in nanophotonics. The bound states in the continuum (BIC) have been investigated in nanoparticles with infinite Q -factor. We report BIC in molybdenum disulfide (MoS 2 ) based Mie nanoresonator suspended in air. The ultrathin nanodisk supports symmetry protected BIC, and the quasi-BIC ( q -BIC) are exploited by breaking the symmetry of the structure. The strongly localized modes in our MoS 2 -based nanodisk sustain a similar magnetic field profile before and after symmetry breaking, unlike what has been previously reported in silicon-based structures. Strong directional emission is observed in BIC regime from a hybrid configuration with a resonator placed on the stacked metal-dielectric layers, which transform BIC to q -BIC and exploit highly directional light. The structure persists emission with small variations in normalized intensity at distorted symmetry. The giant Q -factor in q -BIC is highly desired for biosensing and optical filters.

Published
2021
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40. Exchange Bias in van der Waals CrCl 3 /Fe 3 GeTe 2 Heterostructures.

Author

Zhu R, Zhang W, Shen W, Wong PKJ, Wang Q, Liang Q, Tian Z, Zhai Y, Qiu CW, and Wee ATS

Abstract

Exchange bias is a physical phenomenon whereby the spins of a ferromagnet are pinned by those of an antiferromagnet, and this phenomenon has played an undisputed role in magnetic data storage. Over the past few decades, this effect has been observed in a variety of antiferromagnet/ferromagnet systems. New aspects of this phenomenon are being discovered. With the increasing interest in van der Waals (vdW) magnets, we address the question whether the effect can exist in magnetic vdW heterostructures. Here, we report exchange-bias fields of over 50 mT in mechanically exfoliated CrCl 3 /Fe 3 GeTe 2 heterostructures at 2.5 K, the value of which is highly tunable by the field-cooling process and the heterostructure thickness. We postulate an intuitive picture explaining how the effect arises in this vdW heterostructure, as well as explaining the practical difficulty associated with capturing the effect. This work opens up new routes toward designing spintronic devices made of atomically thin vdW magnets.

Published
2020
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41. Noninterleaved Metasurface for (2 6 -1) Spin- and Wavelength-Encoded Holograms.

Author

Jin L, Dong Z, Mei S, Yu YF, Wei Z, Pan Z, Rezaei SD, Li X, Kuznetsov AI, Kivshar YS, Yang JKW, and Qiu CW

Abstract

Nanostructured metasurfaces demonstrate extraordinary capabilities to control light at the subwavelength scale, emerging as key optical components to physical realization of multitasked devices. Progress in multitasked metasurfaces has been witnessed in making a single metasurface multitasked by mainly resorting to extra spatial freedom, for example, interleaved subarrays, different angles. However, it imposes a challenge of suppressing the cross-talk among multiwavelength without the help of extra spatial freedom. Here, we introduce an entirely novel strategy of multitasked metasurfaces with noninterleaved single-size Si nanobrick arrays and minimalist spatial freedom demonstrating massive information on 6-bit encoded color holograms. The interference between electric dipole and magnetic dipole in individual Si nanobricks with in-plane orientation enables manipulating six bases of incident photons simultaneously to reconstructed 6-bit wavelength- and spin-dependent multicolor images. Those massively reconstructed images can be distinguished by pattern recognition. It opens an alternative route for integrated optics, data encoding, security encryption, and information engineering.

Published
2018
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