Tian-Xue Ma scite author profile

Tian-Xue Ma

4Publications

95Citation Statements Received

165Citation Statements Given

How they've been cited

124

How they cite others

176

165

Affiliations

Beijing Jiaotong University, University of Siegen

Publications

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Heat reduction by thermal wave crystals

Chen

et al. 2018

International Journal of Heat and Mass Transfer

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Non-Fourier heat conduction models assume wave-like behavior does exist in the heat conduction process. Based on this wave-like behavior, thermal conduction controlled in a one-dimensional periodical structure, named thermal wave crystal, has been demonstrated through both theoretical analysis and numerical simulation based on the Cattaneo-Vernotte (CV) heat-conduction model. The transfer matrix method and Bloch analysis have been applied to calculate the band structure of thermal wave propagating in thermal wave crystals. And the temperature responses are obtained by using the FDTD method, which is also used to verify the correctness of the band structure. The results show that band gaps do exist due to the Bragg scattering. Then, a calculation method to predict the mid-gap frequency of band gaps for the thermal wave crystal has been introduced in this Letter. And key parameters determining the band gaps have been discussed. This study shows the potential applications of this novel mechanism, such as thermal imagining, thermal diodes and thermal waveguides.

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Three-dimensional dielectric phoxonic crystals with network topology

Wang

2013

Opt. Express

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We theoretically demonstrate the existence of simultaneous large complete photonic and phononic bandgaps in three-dimensional dielectric phoxonic crystals with a simple cubic lattice. These phoxonic crystals consist of dielectric spheres on the cubic lattice sites connected by thin dielectric cylinders. The simultaneous photonic and phononic bandgaps can exist over a wide range of geometry parameters. The vibration modes corresponding to the phononic bandgap edges are the local torsional resonances of the dielectric spheres and rods. Detailed discussion is presented on the variation of the photonic and phononic bandgaps with the geometry of the structure. Optimal geometry which generates large phoxonic bandgaps is suggested.

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Topology optimization of simultaneous photonic and phononic bandgaps and highly effective phoxonic cavity

Dong

Wang

et al. 2014

J. Opt. Soc. Am. B

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By using the non-dominated sorting-based genetic algorithm II, we study the topology optimization of the twodimensional phoxonic crystals (PxCs) with simultaneously maximal and complete photonic and phononic bandgaps. Our results show that the optimized structures are composed of the solid lumps with narrow connections, and their Pareto-optimal solution set can keep a balance between photonic and phononic bandgap widths. Moreover, we investigate the localized states of PxCs based on the optimized structure and obtain structures with more effectively multimodal photon and phonon localization. The presented structures with highly focused energy are good choices for the PxC sensors. For practical application, we design a simple structure with smooth edges based on the optimized structure. It is shown that the designed simple structure has the similar properties with the optimized structure, i.e. simultaneous wide phononic and photonic bandgaps and a highly effective phononic/photonic cavity, see Figures 8(b) and 8(c).

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Investigation of dual photonic and phononic bandgaps in two-dimensional phoxonic crystals with veins

Wang

Zhang

2014

Optics Communications

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Tian-Xue Ma

Heat reduction by thermal wave crystals

Three-dimensional dielectric phoxonic crystals with network topology

Topology optimization of simultaneous photonic and phononic bandgaps and highly effective phoxonic cavity

Investigation of dual photonic and phononic bandgaps in two-dimensional phoxonic crystals with veins

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