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- UIN Suska Riau
- Xi'an University of the Science and Technology
- University of Riau
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Entanglement of microwave-optical modes in a strongly coupled electro-optomechanical system
摘要: Quantum transduction between microwaves and optics can be realized by quantum teleportation if given reliable microwave-optical entanglement, namely, entanglement-based quantum transduction. To realize this protocol, an entangled source with a high fidelity between the two frequencies is necessary. In this paper, we study microwave and optical entanglement generation based on a generic cavity electro-optomechanical system in the strong coupling regime. Splittings are shown in the microwave and optical output spectra and the frequency entanglement between the two modes is quantified. We show that entanglement can be straightforwardly encoded in the frequency-bin degree of freedom and propose a feasible experiment to verify entangled photon pairs. The experimental implementation is systematically analyzed, and the preferable parameter regime for entanglement verification is identified. An inequality is given as a criterion for good entanglement verification with analysis of practical imperfections.
关键词: strong coupling regime,electro-optomechanical system,quantum transduction,microwave-optical entanglement,frequency-bin entanglement
更新于2025-09-23 15:19:57
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Double-mode absorption in double-defect photonic crystal with one graphene multilayer
摘要: In order to realize the double-mode absorption, double-defect photonic crystal is formed. For the upper defect, the graphene multilayer is placed on the top of photonic crystal acting as the surface defect, while for the one below, the pure dielectric destroying the periodicity of photonic crystal services as the internal defect. Depending on FP resonance, two modes achieve perfect absorption at critical coupling. Merely, the mode-dependences are different, so that these modes have different distinctly Q factors and can be tuned independently by changing the chemical potential of graphene and the size of defect. Combining the angle response, the independence-tuning of modes becomes more flexible. Besides, both of modes’ frequencies and amplitudes are enslaved to the layer number of graphene. And the period of photonic crystal affects directly the peak–peak distance and modes number.
关键词: Double-mode absorption,Double-defect photonic crystal,FP resonance,Critical coupling,Graphene multilayer
更新于2025-09-23 15:19:57
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Colloidal Synthesis and Charge-Carrier Dynamics of Cs2AgSb1-yBiyX6 (X: Br, Cl; 0 ≤y ≤ 1) Double Perovskite Nanocrystals
摘要: A series of lead-free double perovskite NCs: Cs2AgSb1-yBiyX6 (X: Br, Cl; 0≤y≤1) NCs are synthesized. In particular, Cs2AgSbBr6 NCs is a new double perovskite material that has not been reported for the bulk form. Mixed Ag-Sb/Bi NCs exhibit enhanced stability in colloidal solution compared to Ag-Bi or Ag-Sb NCs. Femtosecond transient absorption studies indicate the presence of two prominent fast trapping processes in the charge carrier relaxation. The two fast trapping processes are dominated by intrinsic self-trapping (1~2 ps) due to giant exciton-phonon coupling and surface defects trapping (50~100 ps), respectively. Slow hot-carrier relaxation is observed at high pump fluence, and the possible mechanisms for the slow hot-carrier relaxation are also discussed.
关键词: nanocrystal,double perovskite,carrier-phonon coupling,hot-carrier cooling,trap state
更新于2025-09-23 15:19:57
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Colloidal Synthesis and Charge-Carrier Dynamics of Cs2AgSb1-yBiyX6 (X: Br, Cl; 0 ≤y ≤ 1) Double Perovskite Nanocrystals
摘要: A series of lead-free double perovskite NCs: Cs2AgSb1-yBiyX6 (X: Br, Cl; 0≤y≤1) NCs are synthesized. In particular, Cs2AgSbBr6 NCs is a new double perovskite material that has not been reported for the bulk form. Mixed Ag-Sb/Bi NCs exhibit enhanced stability in colloidal solution compared to Ag-Bi or Ag-Sb NCs. Femtosecond transient absorption studies indicate the presence of two prominent fast trapping processes in the charge carrier relaxation. The two fast trapping processes are dominated by intrinsic self-trapping (1~2 ps) due to giant exciton-phonon coupling and surface defects trapping (50~100 ps), respectively. Slow hot-carrier relaxation is observed at high pump fluence, and the possible mechanisms for the slow hot-carrier relaxation are also discussed.
关键词: nanocrystal,double perovskite,carrier-phonon coupling,hot-carrier cooling,trap state
更新于2025-09-23 15:19:57
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[IEEE 2018 IEEE 13th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) - Singapore, Singapore (2018.4.22-2018.4.26)] 2018 IEEE 13th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) - Optical Coupling of 3D Silicon Micromirrors
摘要: Free space optical coupling is considered the important feature which affects on the performance of the optical systems. Where coupling elements such as lenses and mirrors are aided in overcome the divergence of the Gaussian beams and to achieve phase matching. Here we concentrate on the studying of the free space coupling of 3D (spherical) mirror based on the propagation of a Gaussian beam. The design and fabrication of 3D mirror in the Optical microelectromechanical systems (MEMS) are studied. The coupling efficiency is a very important factor in the design of any MEMS circuit. High coupling efficiency is obtained by assembling optical parts which increase the integration effort. In this work, we report a high coupling efficiency, monolithically integrated 3D silicon micromirror that is capable of influencing on the Gaussian beams which propagate in the plane of the silicon substrate. A micromachining method is presented for fabricating the 3D micromirror.
关键词: micromachining,3D silicon micromirrors,optical coupling,MEMS,Gaussian beams
更新于2025-09-23 15:19:57
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Microscopy of the Heart || Optical Sectioning Microscopy at ‘Temporal Super-Resolution’
摘要: Within the recent years several super-resolution microscopic methods were developed, where the super-resolution refers to bringing the optical resolution beyond the diffraction limit introduced by Ernst Abbe, which was believed to be a real limit for quite some time. The popularity of the method also in cardiac related research can be followed in the chapter ‘Quantitative super-resolution microscopy of cardiac myocytes’ in this book. In parallel to this spatial super-resolution progress, within the past two decades there was a dynamic development of high speed–high resolution imaging initially towards video-rate (30 frames per second, also referred to as ‘real time’-imaging) but soon to ever increasing frame rates reaching the kHz order of magnitude these days. Many processes, especially those in excitable cells such as neurons and cardiomyocytes [1] or cells in ?ow like erythrocytes or leukocytes [2], require even higher temporal resolution to elucidate the kinetics of processes like the Excitation-Contraction Coupling (ECC). Such ultra high speed recordings still require a diffraction limited spatial resolution to correlate function and subcellular structures [3]. Within this chapter we review optical sectioning microscopy and their application in cellular cardiology. In this approach we focus on methods that allow to access any part of the cell, i.e. we exclude methods that are intrinsically limited to surface investigations like total internal re?ection ?uorescence (TIRF) microscopy [4] or scanning near ?eld optical microscopy (SNOM) [5]. In similarity we exclude techniques that require several images to calculate an image section such as deconvolution microscopy [6] or structured illumination microscopy [7] (e.g., Apotome.2, Zeiss, Jena, Germany).
关键词: super-resolution microscopy,Excitation-Contraction Coupling,high-speed imaging,cardiomyocytes,optical sectioning
更新于2025-09-23 15:19:57
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Ultrafast Protein Response in Channelrhodopsin-2 Studied by Time-Resolved IR Spectroscopy
摘要: Ultrafast IR transient absorption in the carbonyl vibrational region of protonated aspartate and glutamate residues in Channelrhodopsin-2 from Chlamydomonas reinhardtii shows immediate protein response to retinal excitation. The observed difference bands are formed directly after the excitation on the sub-ps time scale and were assigned to side chains in the retinal vicinity, such as D156 and E90. This finding implies an ultrafast and effective energy transfer from the retinal to its environment via hydrogen-bonded networks and reveals extraordinary strong chromophore-protein coupling and intense interaction within the protein. Relevance on the protein function as optically gated ion channel are discussed.
关键词: Channelrhodopsin-2,protein response,ion channel,Ultrafast IR transient absorption,hydrogen-bonded networks,chromophore-protein coupling,retinal excitation
更新于2025-09-23 15:19:57
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[IEEE 2018 18th Mediterranean Microwave Symposium (MMS) - Istanbul, Turkey (2018.10.31-2018.11.2)] 2018 18th Mediterranean Microwave Symposium (MMS) - Optocoupler Effect on In-Vivo Measurements Characterization for Human Body Communication
摘要: Body Area Network (BAN) has found intuitive applications in healthcare and medical monitoring, where interconnected electronic terminals are used around a user. In this contest, Human Body Communication (HBC) is a promising technique which uses the human body as a communication medium. Almost measures targeting the HBC channel characterization, the balun has been used to separate the grounds between transceivers. In this work, optocoupler was used for the first time, to decouple transceiver ports from each other and prevent the parasitic return path. Optocoupler’s effect on the measured results was analyzed for both capacitive and galvanic HBC coupling.
关键词: capacitive coupling,body area network,galvanic coupling,balun,optocoupler,human body communication
更新于2025-09-19 17:15:36
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A cost-effective realization of multimode exciton-polaritons in single-crystalline microplates of a layered metal-organic framework
摘要: We report the observation of multimode exciton-polaritons in single-crystalline microplates of a two-dimensional (2D) layered Metal-Organic Framework (MOF), which can be synthesized through a facile solvothermal approach, thereby eliminating all fabrication complexities usually involved in the construction of polariton cavities. With a combination of experiments and theoretical modelling, we have found that the exciton-polaritons are formed at room temperature, as a result of a strong coupling between Fabry-Perot cavity modes formed inherently by two parallel surfaces of a microplate and Frenkel excitons provided by the 2D layers of dye molecular linkers in the MOF. Flexibility in rational selection of dye linkers for synthesizing such MOFs renders a large-scale, low-cost production of solid-state, micro- exciton-polaritonic devices operating in the visible and near infrared (NIR) range. Our work introduces the MOF as a new class of potential materials to explore polariton-related quantum phenomena in a cost-effective manner.
关键词: Strong Coupling,Exciton-Polaritons,Multimode Coupling,Metal-Organic Framework,Angle-Resolved Reflectivity,Rhodamine B
更新于2025-09-19 17:15:36
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Interlayer interactions in 2D WS <sub/>2</sub> /MoS <sub/>2</sub> heterostructures monolithically grown by <i>in situ</i> physical vapor deposition
摘要: The understanding of the interlayer interactions in vertical heterostructures of two-dimensional (2D) transition metal dichalcogenides (TMDCs) is essential to exploit their advanced functions for next-generation optoelectronics and electronics. Here we demonstrate a monolithic stacking of TMDC heterostructures with 2D MoS2 and WS2 layers via in situ physical vapor deposition. We find that the kinetically sputtered atoms are able to overcome the interlayer van der Waals forces between the vertical layers, leading to a substantial number of randomly oriented stacks with various twist angles. Our X-ray photoelectron spectroscopy results reveal a type II heterojunction for 2D WS2/MoS2, showing a band alignment with a conduction band offset of 0.41 eV and a valence band offset of 0.25 eV. In particular, we observed a remarkable interlayer coupling and associated exciton relaxation at the hetero-interface due to the misoriented stacks. By analyzing the band structures and charge densities of the vertical stacks using first-principles calculations, we reveal that the interlayer coupling is a function of the interlayer distance and is relatively insensitive to the angle of misorientation.
关键词: band alignment,2D materials,physical vapor deposition,interlayer coupling,heterostructures
更新于2025-09-19 17:15:36