Journal
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA A-OPTICS IMAGE SCIENCE AND VISION
Volume 38, Issue 10, Pages 1409-1422Publisher
OPTICAL SOC AMER
DOI: 10.1364/JOSAA.430105
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- Office of Naval Research [N00014-17-1-2458]
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In this study, the refraction of ST wave packets at planar interfaces between non-dispersive, homogeneous, and isotropic dielectrics is examined. A new law of refraction is proposed, highlighting fascinating phenomena such as group-velocity invariance, anomalous refraction, group-velocity inversion, and the dependence of group velocity on the angle of incidence.
Space-time (ST) wave packets are pulsed optical beams endowed with precise spatio-temporal structure by virtue of which they exhibit unique and useful characteristics such as propagation invariance and tunable group velocity. We study in detail here, and in two accompanying papers, the refraction of ST wave packets at planar interfaces between non-dispersive, homogeneous, and isotropic dielectrics. We formulate a law of refraction that determines the change in the ST wave-packet group velocity across such an interface as a consequence of a newly identified optical refractive invariant that we call the spectral curvature. Because the spectral curvature vanishes in conventional optical fields where the spatial and temporal degrees of freedom are separable, these phenomena have not been observed to date. We derive the laws of refraction for baseband, X wave, and sideband ST wave packets that reveal fascinating refractive phenomena, especially for the former class of wave packets. We predict theoretically, and confirm experimentally in the accompanying papers, refractive phenomena such as group-velocity invariance (ST wave packets whose group velocity does not change across the interface), anomalous refraction (group-velocity increase in higher-index media), group-velocity inversion (change in the sign of the group velocity upon refraction but not its magnitude), and the dependence of the group velocity of the refracted ST wave packet on the angle of incidence. (c) 2021 Optical Society of America
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