Your search keyword '"Hua-Jun CHEN"' showing total 7 results

1. Majorana fermions induced fast- and slow-light in a hybrid semiconducting nanowire/superconductor device

Author

Peng-Jie Zhu, Yong-Lei Chen, Bao-Cheng Hou, and Hua-Jun Chen

Subjects

Superconductivity, Physics, MAJORANA, Condensed matter physics, Nanowire, General Physics and Astronomy, Fermion, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Slow light

Abstract

We investigate theoretically Rabi-like splitting and Fano resonance in absorption spectra of quantum dots (QDs) based on a hybrid QD-semiconducting nanowire/superconductor (SNW/SC) device mediated by Majorana fermions (MFs). Under the condition of pump on-resonance and off-resonance, the absorption spectrum experiences the conversion from Fano resonance to Rabi-like splitting in different parametric regimes. In addition, the Fano resonances are accompanied by the rapid normal phase dispersion, which will indicate the coherent optical propagation. The results indicate that the group velocity index is tunable with controlling the interaction between the QD and MFs, which can reach the conversion between the fast- and slow-light. Fano resonance will be another method to detect MFs and our research may indicate prospective applications in quantum information processing based on the hybrid QD-SNW/SC devices.

Published

2022

2. High-resolution biomolecules mass sensing based on a spinning optomechanical system with phonon pump

Author

Hua-Jun Chen

Subjects

Physics, Sagnac effect, Spins, Phonon, business.industry, General Engineering, Phase (waves), General Physics and Astronomy, Resonator, Amplitude, Transmission (telecommunications), Optoelectronics, business, Spinning

Abstract

We theoretically propose a high-resolution biomolecules mass sensor based on a spinning resonator with a coherent phonon pump. When the resonator spins along the clockwise and counterclockwise directions, the resonator undergoes a different Sagnac effect, which combines the phonon pump with tunable amplitude and phase results in significantly enhanced probe transmission. If the mass of external biomolecules (such as baculovirus or coronavirus) deposited on the resonator, they can be measured by tracking the resonance frequency shifts in the transmission spectrum. Therefore our study presents a means to classify different viruses, and can also be used to identify 2019-nCoV.

Published

2021

3. Ultrasensitive and high resolution mass sensor by photonic-molecule optomechanics with phonon pump

Author

Hua-Jun Chen

Subjects

Physics, business.industry, Phonon, High resolution, Condensed Matter Physics, Industrial and Manufacturing Engineering, Atomic and Molecular Physics, and Optics, Optoelectronics, Molecule, Mass sensor, Photonics, business, Instrumentation, Optomechanics

Published

2020

4. Room temperature nonlinear mass sensing based on a hybrid spin-nanoresonator system*

Author

Hua-Jun Chen and Jian-Yong Yang

Subjects

Nanomechanical resonator, Nonlinear system, Materials science, Condensed matter physics, General Physics and Astronomy, Nitrogen-vacancy center, Spin-½

Abstract

We present a room temperature nonlinear mass sensing based on a hybrid spin-nanoresonator system with the microwave pump–probe technique and the spin readout technique, which includes a single spin of nitrogen–vacancy (NV) center in diamond and a nanomechanical cantilever. The resonance frequency of the nanoresonator can be measured with the nolinear Kerr spectrum, and the parameters that influence the nolinear Kerr spectrum are also investigated. Further, according to the relationship between frequency shifts and variable mass attached on the nanoresonator, this system can also be used to detect the mass of DNA molecules with the nolinear Kerr spectrum. Benefiting from the single spin of the NV center in diamond has a long coherence time at 300 K, the hybrid system can realize room temperature mass sensor, and the mass response rate can reach 2600 zg/Hz.

Published

2020

5. Fano resonance induced fast to slow light in a hybrid semiconductor quantum dot and metal nanoparticle system

Author

Hua-Jun Chen

Subjects

Materials science, Chemical substance, Physics and Astronomy (miscellaneous), business.industry, Fano resonance, Nanoparticle, Slow light, Metal, Semiconductor quantum dots, visual_art, visual_art.visual_art_medium, Optoelectronics, Metal nanoparticles, business, Instrumentation

Abstract

We theoretically demonstrate the Fano resonance and the conversion from fast to slow light in a hybrid semiconductor quantum dot (SQDs)-metal nanoparticle (MNPs) with cavity quantum electrodynamics treatment. The absorption spectra of the weak probe field exhibit a series of asymmetric Fano line shapes and their related optical propagation properties, such as fast and slow light effects, are investigated based on the hybrid system for suitable parametric regimes. Further, the transparency windows (i.e. the absorption dip approaches zero) in the probe absorption spectra are accompanied by the rapid steep dispersion of the Fano resonance profile, which promises the slow or fast light effect, and even tunable fast-to-slow light propagation (or vice versa) can be achieved by controlling different parameter regimes. Therefore the investigation may indicate promising applications in quantum information processing based on the hybrid SQD-MNP system.

Published

2020

6. Monolayer-molybdenum-disulfide-based nano-optomechanical transistor and tunable nonlinear responses

Author

Chen Changzhao, Hua-Jun Chen, Xian-Wen Fang, and Yang Li

Subjects

Kerr effect, Physics::Optics, Nanotechnology, 02 engineering and technology, 01 natural sciences, law.invention, Resonator, chemistry.chemical_compound, law, 0103 physical sciences, Nano, Monolayer, Materials Chemistry, Electrical and Electronic Engineering, 010306 general physics, Molybdenum disulfide, Physics, business.industry, Transistor, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Semiconductor, chemistry, Optical transistor, 0210 nano-technology, business

Abstract

Atomically thin two-dimensional semiconductor nanomaterials have attained considerable attention currently. Here, we present a nano-optomechanical system based on a suspended monolayer molybdenum disulfide (MoS 2 ). The linear and nonlinear coherent optical properties of this system, and the phenomenon of phonon-induced transparency are demonstrated. The transmission of the probe field can be manipulated by the power of a second ‘gating' (pump) field, which indicates a promising candidate for an optical transistor. We further study the nonlinear effect of the system, and the optical Kerr effect of the monolayer MoS 2 resonator can be regulated under different parameter regimes. This scheme proposed here may indicate potential chip-scale applications of monolayer MoS 2 resonator in quantum information with the currently popular pump-probe technology.

Published

2016

7. Robust tuning of high-Q spoof plasmonic cavity with surface defect.

Author

Hong-Wei Wu, Hua-Jun Chen, Ren-Hao Fan, Yang Li, and Zong-Qiang Sheng

Abstract

We demonstrate that tunable whispering gallery modes can be supported in a spoof plasmonic cavity with a deep-subwavelength scale by inserting periodic metal strips into a silicon cylinder. The resonant frequencies of modes can be tuned freely by properly tailoring the structural parameters. Furthermore, we also show that the resonant modes can keep a high quality factor for a defect existing on the surface of the spoof plasmonic cavity by switching the whispering gallery resonance to Fabry–Perot-like resonance, which is absent for the traditional whispering gallery cavities. This property indicates potential applications in the design of optical cavities at low frequencies. [ABSTRACT FROM AUTHOR]

Published

2018