Renjie Liu scite author profile

Renjie Liu

5Publications

2Citation Statements Received

48Citation Statements Given

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Affiliations

Nantong University, Kunshan Govisionox Optoelectronic (China)

Publications

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Fabry-Perot resonance on extraordinary transmission through one-dimensional metallic gratings with sub-wavelength under transverse electric wave excitation

Wang¹,

Ming-Li²,

Liu³

et al. 2011

Acta Phys. Sin.

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The transmission distribution of transverse electric wave (TE) through one-dimensional metallic gratings with sub-wavelenghth slits with dielectric added in different positions has been simulated by the FDTD (finite difference time domain) method, the extraordinary transmission can be produced at several special wavelengths. The simulation shows that the guided-mode-like resonance theory is the main reason giving rise to the first peak and the second peak. Based on the guided-mode-like resonance theory, from the Maxwell’s equations,we nade sure that the Fabry Perot resonance is the main cause producing the third peak by the effective index mehod. In a word, the guided-mode resonance theory and the Fabry-Perot-like resonance reveal the physical nature of the extraordinary transmission phenomenon which provides a complete theoretical basis for further study of the extraordinary transmission phenomenon of TE-polarized wave.

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P‐10.1: Foldable AMOLED with Dropping Ball Enhancement

Liu

Gao

Wang

et al. 2018

Symp Digest of Tech Papers

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Foldable AMOLED display would be one of the most popular display type in the future. However, there are still many challenges that we need to overcome. Dropping ball test is one of the key problems to be solved in foldable OLED display. In this paper, we designed a contrast experiment and found that the cushion materials had an important effect on the dropping ball. The dropping height can improve from 3cm to 15cm when the module is without foam. At the same time, the bending property of module will not be changed.

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Extraordinary transmission through one-dimensional metallic gratings with sub-wavelength slits under transverse electric wave excitation

Wang¹,

Ming-Li²,

Liu³

et al. 2010

Acta Phys. Sin.

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To show how to achieve the extraordinary transmission of one-dimensional metallic gratings with sub-wavelenghth slits, the transmission distribution of transverse electric (TE) wave through one-dimensional metallic gratings with sub-wavelenghth slits with a dielectric substance applied on it in different ways has been simulated by the finite-difference time-domain method. The relations between the refractive index of dielectric and the transmission efficiency is elicited from simulation, which show that the extraordinary transmission can be produced at several special wavelengths. Then, a new theory named the guided-mode-like resonance theory is put forward based on the guided-mode resonance theory, which is well suited for the extraordinary transmission under the TE-polarized wave excitation, and it is concluded that the guided-mode-like resonance is the main reason for the extraordinary transmission of TE-polarized wave. Thus, the new theory can explain the problems which cant be explained by the traditional theory. In a word, the guided-mode like resonance theory reveals the physical nature of the extraordinary transmission phenomenon which provides a theoretical basis for the further study of the extraordinary transmission phenomenon.

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Suppression of Crosstalk in Quantum Circuit Based on Instruction Exchange Rules and Duration

Guan

Liu

Cheng

et al. 2023

Entropy

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Crosstalk is the primary source of noise in quantum computing equipment. The parallel execution of multiple instructions in quantum computation causes crosstalk, which causes coupling between signal lines and mutual inductance and capacitance between signal lines, destroying the quantum state and causing the program to fail to execute correctly. Overcoming crosstalk is a critical prerequisite for quantum error correction and large-scale fault-tolerant quantum computing. This paper provides an approach for suppressing crosstalk in quantum computers based on multiple instruction exchange rules and duration. Firstly, for the majority of the quantum gates that can be executed on quantum computing devices, a multiple instruction exchange rule is proposed. The multiple instruction exchange rule reorders quantum gates in quantum circuits and separates double quantum gates with high crosstalk on quantum circuits. Then, time stakes are inserted based on the duration of different quantum gates, and quantum gates with high crosstalk are carefully separated in the process of quantum circuit execution by quantum computing equipment to reduce the influence of crosstalk on circuit fidelity. Several benchmark experiments verify the proposed method’s effectiveness. In comparison to previous techniques, the proposed method improves fidelity by 15.97% on average.

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FinFET doping with PSG/BSG glass mimic doping by ultra low energy ion implantation

He¹,

Chen

Zhang

et al. 2016

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Renjie Liu

Fabry-Perot resonance on extraordinary transmission through one-dimensional metallic gratings with sub-wavelength under transverse electric wave excitation

P‐10.1: Foldable AMOLED with Dropping Ball Enhancement

Extraordinary transmission through one-dimensional metallic gratings with sub-wavelength slits under transverse electric wave excitation

Suppression of Crosstalk in Quantum Circuit Based on Instruction Exchange Rules and Duration

FinFET doping with PSG/BSG glass mimic doping by ultra low energy ion implantation

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