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Analytical transient analysis of temporal boundary value problems using the d’Alembert formula

Wending Mai and Douglas H. Werner

Abstract

Temporal boundary value problems (TBVPs) provide the foundation for analyzing electromagnetic wave propagation in time-varying media. In this paper, we point out that TBVPs fall into the category of unbounded initial value problems, which have traveling wave solutions. By dividing the entire time frame into several subdomains and applying the d’Alembert formula, the transient expressions for waves propagating through temporal boundaries can be evaluated analytically. Moreover, unlike their spatial analogs, TBVPs are subject to causality. Therefore, the resulting analytical transient solutions resulting from the d’Alembert formula are unique to temporal systems.

© 2021 Optical Society of America

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Supplementary Material (2)

NameDescription
Visualization 1       Analytical transient analysis of temporal boundary value problems using the d’Alembert formula. A Gaussian pulse encountering a temporal boundary. (a) Time evolution of the D_total waveform. (b) The forward term D_fw, backward term D_bw, and D_total=
Visualization 2       Analytical transient analysis of temporal boundary value problems using the d’Alembert formula. A two-cycle sine wave encounters two stacked temporal boundaries acting as an ATC. (a) The time evolution of D_total. (b) The four partial terms and thei

Data Availability

Data underlying the results presented in this Letter are not publicly available at this time but may be obtained from the authors upon reasonable request.

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