Publications by authors named "Hai-Kuan Dong"

Recently, novel 2D InGeTe has been successfully synthesized and attracted attention due to its excellent properties. In this study, we investigated the mechanical properties and transport behavior of InGeX (X = S, Se and Te) monolayers using density functional theory (DFT) and machine learning (ML). The key physical parameters related to mechanical properties, including Poisson's ratio, elastic modulus, tensile strength and critical strain, were revealed.

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In the breakthrough progress made in the latest experiment Hou(2022507), 2DC60polymer was exfoliated from the quasi-hexagonal bulk crystals. BulkC60polymer with quasi-tetragonal phase was found to easily form 1D fullerene structure withC60molecules connected by C=C. Inspired by the experiment, we investigate the strain behaviors of 1D and 2DC60polymers by first-principles calculations.

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A Toffoli gate plays a critical role in many quantum algorithms due to its function as a building block, which is a fundamental element for feasible large-scale quantum computation. With the help of polarization, spatial, and temporal degrees of freedom (DOFs), a construction scheme of a nearly deterministic polarization Toffoli gate is proposed, where only two two-photon gates are required. The simple construction circuit together with available techniques and optical elements facilitate the realization of the scheme presented here.

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Based on the circuit including linear optical elements, a fault-tolerant distribution of GHZ states against collective noise among three parties is proposed. Additionally, two controlled DSQC protocols using the shared GHZ states as quantum channels are also presented under the charge of the controller. The first controlled DSQC protocol applies single parity analysis based on weak cross-Kerr nonlinearities.

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We present a scheme for encoding single logical qubit information, which is immune to collective decoherence acting on Hilbert space spanned by the corresponding states. The scheme needs a spatial entanglement gate and a polarization entanglement gate, which are realized with the assistance of weak cross-Kerr nonlinear interaction between photons and coherent states via Kerr media. Under the condition of sufficient large phase shifts, single logical qubit information can be encoded into this minimal optical decoherence-free subsystem with near-unity fidelity.

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Synopsis of recent research by authors named "Hai-Kuan Dong"

  • - Hai-Kuan Dong's recent research focuses on the mechanical and transport properties of novel two-dimensional materials, specifically InGeX (X = S, Se, Te), utilizing density functional theory (DFT) and machine learning (ML) to reveal key mechanical parameters.
  • - Another significant area of investigation includes the strain effects on the band alignments and carrier mobility of one-dimensional and two-dimensional C60 nanostructures, which builds upon recent experimental advancements in polymer exfoliation.
  • - Additionally, Dong has contributed to quantum computing by developing fault-tolerant techniques, such as a polarization Toffoli gate and a scheme for encoding logical qubit information, utilizing optical elements to enhance quantum state manipulation and transmission.