2017
DOI: 10.1364/ol.42.004561
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Bi-hyperbolic isofrequency surface in a magnetic-semiconductor superlattice

Abstract: The topology of isofrequency surfaces of a magnetic-semiconductor superlattice influenced by an external static magnetic field is studied. In particular, in the given structure, topology transitions from standard closed forms of spheres and ellipsoids to open ones of Type I and Type II hyperboloids as well as bi-hyperboloids were revealed and analyzed. In the latter case, it is found out that a complex of an ellipsoid and bi-hyperboloid in isofrequency surfaces appears as a simultaneous effect of both the rati… Show more

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Cited by 25 publications
(20 citation statements)
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“…The superlattice behaves as an anisotropic double-negative medium for the extraordinary waves, while for the ordinary waves it is a double-positive one. For the extraordinary waves the isofrequency surface appears to be in a form of bihyperboloid, 32 which is significantly different from those obtained above for Regions I and III ( Fig. 8(a)).…”
Section: Loss-induced Topological Transitionscontrasting
confidence: 80%
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“…The superlattice behaves as an anisotropic double-negative medium for the extraordinary waves, while for the ordinary waves it is a double-positive one. For the extraordinary waves the isofrequency surface appears to be in a form of bihyperboloid, 32 which is significantly different from those obtained above for Regions I and III ( Fig. 8(a)).…”
Section: Loss-induced Topological Transitionscontrasting
confidence: 80%
“…Such an unusual bi-hyperbolic topology is a result of simultaneous effects of both the structure periodicity and influence of an external magnetic field. 32 The isofrequency surface of the ordinary waves transits to an ellipsoid-like form, since the condition |µ 2 xy | < |µ xx µ yy | is satisfied. This ellipsoid lies inside of such a complicated bi-hyperbolic form.…”
Section: Lossless Topological Transitionsmentioning
confidence: 99%
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“…Therefore, z is a constant and independent of frequency. [36][37][38][39][40] We analyze topological phases in the electromagnetic duality metamaterial model, which can be expressed as = . [10,[41][42][43] The corresponding medium can be implemented by using a periodic multi-layered structure of magnetic and semiconductor layers.…”
Section: Gyro-electromagnetic Metamaterialsmentioning
confidence: 99%
“…Topological transition occurs at the frequency ω 4 , where ε xx = 0. The isofrequency surface for ordinary waves is closed ellipsoid, while for extraordinary waves it represents complex surface which is a combination of closed ellipsoid and open surfaces [18].…”
Section: Topological Transitions In Iso-frequency Surfaces Of a Gyroementioning
confidence: 99%