Electrical tunability due to coalescence of exceptional points in parity-time symmetric waveguides

Abstract: We demonstrate theoretically the electric tunability due to coalescence of exceptional points in PT-symmetric waveguides bounded by imperfect conductive layers. Owing to the competition effect of multimode interaction, multiple exceptional points and PT phase transitions could be attained in such a simple system and their occurrences are strongly dependent on the boundary conductive layers. When the conductive layers become very thin, it is found that the oblique transmittance and reflectance of the same syste… Show more

“…It is worthy of noting that the occurrence of coalescence and rebifurcation of EPs shown above is attributed to the competition interacting effect among multiple states, which has also been discussed and analyzed in other multistate systems [19,21,22]. Remarkably, the external magnetic field applied on our proposed PT -symmetric waveguide could effectively tune the interaction among multiple states, but in a nonreciprocal manner, giving rise to the different evolution process between positive and negative guided modes.…”

“…Recently, more complex phenomena involved in the occurrence and evolution of EPs have been theoretically proposed and experimentally observed in PT -symmetric multistate systems [18][19][20][21][22][23][24][25][26][27][28]. For example, Alaeian and Dionne [18] demonstrated that in a five-layer plasmonic waveguide having PT symmetry, coalescence and evolution of EPs could be tuned to support positive or negative refractive indices by changing the coupling between the waveguide layers.…”

“…Richer physical behaviors such as phase space with distinct topological properties could be present in a four-state acoustic system [21]. Given the abrupt change of system phase near an EP, one may tune the properties of a system flexibly by a small variation of certain external parameters [22][23][24][25].…”

Coalescence of nonreciprocal exceptional points in magnetized PT -symmetric systems

“…It is worthy of noting that the occurrence of coalescence and rebifurcation of EPs shown above is attributed to the competition interacting effect among multiple states, which has also been discussed and analyzed in other multistate systems [19,21,22]. Remarkably, the external magnetic field applied on our proposed PT -symmetric waveguide could effectively tune the interaction among multiple states, but in a nonreciprocal manner, giving rise to the different evolution process between positive and negative guided modes.…”

“…Recently, more complex phenomena involved in the occurrence and evolution of EPs have been theoretically proposed and experimentally observed in PT -symmetric multistate systems [18][19][20][21][22][23][24][25][26][27][28]. For example, Alaeian and Dionne [18] demonstrated that in a five-layer plasmonic waveguide having PT symmetry, coalescence and evolution of EPs could be tuned to support positive or negative refractive indices by changing the coupling between the waveguide layers.…”

“…Richer physical behaviors such as phase space with distinct topological properties could be present in a four-state acoustic system [21]. Given the abrupt change of system phase near an EP, one may tune the properties of a system flexibly by a small variation of certain external parameters [22][23][24][25].…”

Coalescence of nonreciprocal exceptional points in magnetized PT -symmetric systems

“…Similar to the 𝒫𝒯 -symmetric mechanical system, 𝒫𝒯 -symmetric optical systems can produce extraordinary optical features and phenomena near the spontaneous 𝒫𝒯 -symmetric breaking point. Subsequently, 𝒫𝒯 -symmetric optical systems, such as 𝒫𝒯symmetric optical lattices, [6][7][8][9][10] optical waveguides, [11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29] inhomogeneous nonlinear optical media, [30] and graphene, [31,32] have been widely investigated and some extraordinary optical characteristics, for instance, birefringence, [6] unidirec-tional invisibility, [8,9] ultrastrong absorption, [31] and singlemode lasing, [33,34] have been found.…”

Extraordinary transmission and reflection in PT -symmetric two-segment-connected triangular optical waveguide networks with perfect and broken integer waveguide length ratios*

Design of unidirectional and tunable channels in two-dimensional photonic crystal composed of local PT symmetric structure