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Inverse Design of Phononic Crystal with Desired Transmission via a Gradient-Descent Approach |
| Yuhang Wei and Dahai He* |
| Department of Physics and Jiujiang Research Institute, Xiamen University, Xiamen 361005, China |
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| Cite this article: |
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Yuhang Wei and Dahai He 2023 Chin. Phys. Lett. 40 090502 |
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Abstract We propose a general approach based on the gradient descent method to study the inverse problem, making it possible to reversely engineer the microscopic configurations of materials that exhibit desired macroscopic properties. Particularly, we demonstrate its application by identifying the microscopic configurations within any given frequency range to achieve transparent phonon transport through one-dimensional harmonic lattices. Furthermore, we obtain the phonon transmission in terms of normal modes and find that the key to achieving phonon transparency or phonon blocking state lies in the ratio of the mode amplitudes at ends.
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Received: 22 July 2023
Editors' Suggestion
Published: 10 September 2023
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| PACS: |
05.10.-a
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(Computational methods in statistical physics and nonlinear dynamics)
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05.60.Cd
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(Classical transport)
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05.70.Ln
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(Nonequilibrium and irreversible thermodynamics)
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44.10.+i
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(Heat conduction)
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