时空周期材料频散关系的扰动理论

arXiv - PHYS - Mesoscale and Nanoscale Physics Pub Date : 2024-09-17 DOI:arxiv-2409.11514

Erik Orvehed Hiltunen

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引用次数: 0

摘要

我们考虑了均质材料在一个空间维度上的弱时空周期扰动的布洛赫态。空间周期性和时间周期性的相互作用导致了自由情况下的无限退化色散关系。我们考虑了一般的扰动项，由于无限退化的结果，我们证明有效方程是由无限矩阵的特征值问题给出的。我们的方法可以看作是近无电子模型的时间调制广义化。基于这一结果，我们发现无限退化可能会分裂成一系列非退化带。我们用数值计算来说明我们的结果，并观察到扰动理论与数值计算的全解之间非常接近。

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Perturbation theory for dispersion relations of spacetime-periodic materials

We consider Bloch states of weak spacetime-periodic perturbations of homogeneous materials in one spatial dimension. The interplay of space- and time-periodicity leads to an infinitely degenerate dispersion relation in the free case. We consider a general perturbation term, and, as a consequence of the infinite degeneracy, we show that the effective equations are given by the eigenvalue problem of an infinite matrix. Our method can be viewed as a time-modulated generalisation of the nearly-free electron model. Based on this result, we find that the infinite degeneracy may split into a family of non-degenerate bands. Our results are illustrated with numerical calculations, and we observe close agreement between the perturbation theory and the numerically computed full solution.

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arXiv - PHYS - Mesoscale and Nanoscale Physics

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