SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220860604> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W4220860604 abstract "We propose a mechanism to achieve real energy spectra via Hermitian subspace in non-Hermitian systems. As an illustrative example, we investigate a system composed of two identical Su-Schrieffer-Heeger (SSH) chains connected by a lossy site in each unit cell. Although the system as a whole is non-Hermitian, it is able to support Dirac points that coexist with exceptional points, exactly exhibiting real eigenenergies. The real spectra and coexistence of different singularities are inherited from two virtual decoupled subsystems after a transformation that comprises a Hermitian SSH chain and a non-Hermitian Lieb lattice. Furthermore, we show the two subsystems both experience topological phase transition by tuning coupling strength, allowing the exploration of Hermitian and non-Hermitian topological edge modes at the same time. In aid of Hermitian subspace, the waves could evolve without dissipation depending on initial injection, which contributes to coherent splitters with locked phase and intensity in two SSH layers. The proposed model can be realized in evanescently coupled optical waveguide arrays and further extended to other tight-binding systems." @default.
W4220860604 created "2022-04-03" @default.
W4220860604 creator A5004024447 @default.
W4220860604 creator A5004366207 @default.
W4220860604 creator A5012928424 @default.
W4220860604 creator A5040040696 @default.
W4220860604 creator A5063563270 @default.
W4220860604 creator A5066505965 @default.
W4220860604 creator A5080107062 @default.
W4220860604 date "2022-03-17" @default.
W4220860604 modified "2023-10-18" @default.
W4220860604 title "Subspace-induced Dirac point and nondissipative wave dynamics in a non-Hermitian optical lattice" @default.
W4220860604 cites W1665371518 @default.
W4220860604 cites W1760629578 @default.
W4220860604 cites W1911454827 @default.
W4220860604 cites W1976677893 @default.
W4220860604 cites W2001746028 @default.
W4220860604 cites W2008116532 @default.
W4220860604 cites W2016446021 @default.
W4220860604 cites W2059885503 @default.
W4220860604 cites W2096325810 @default.
W4220860604 cites W2115709556 @default.
W4220860604 cites W2125284466 @default.
W4220860604 cites W2327374852 @default.
W4220860604 cites W2328717021 @default.
W4220860604 cites W2346767375 @default.
W4220860604 cites W2560262202 @default.
W4220860604 cites W2592604844 @default.
W4220860604 cites W2611395271 @default.
W4220860604 cites W2736390812 @default.
W4220860604 cites W2744045251 @default.
W4220860604 cites W2762538791 @default.
W4220860604 cites W2781491230 @default.
W4220860604 cites W2789790776 @default.
W4220860604 cites W2790056669 @default.
W4220860604 cites W2790741613 @default.
W4220860604 cites W2795835319 @default.
W4220860604 cites W2799989893 @default.
W4220860604 cites W2884538619 @default.
W4220860604 cites W2943615014 @default.
W4220860604 cites W2944799965 @default.
W4220860604 cites W2950613702 @default.
W4220860604 cites W2957628806 @default.
W4220860604 cites W2971404577 @default.
W4220860604 cites W2980587912 @default.
W4220860604 cites W2994214974 @default.
W4220860604 cites W2994665279 @default.
W4220860604 cites W2994904044 @default.
W4220860604 cites W2996016305 @default.
W4220860604 cites W3000894583 @default.
W4220860604 cites W3001239259 @default.
W4220860604 cites W3005881918 @default.
W4220860604 cites W3006370281 @default.
W4220860604 cites W3012029914 @default.
W4220860604 cites W3014410465 @default.
W4220860604 cites W3015860586 @default.
W4220860604 cites W3043415867 @default.
W4220860604 cites W3044600337 @default.
W4220860604 cites W3092919272 @default.
W4220860604 cites W3095848163 @default.
W4220860604 cites W3098760699 @default.
W4220860604 cites W3100018136 @default.
W4220860604 cites W3102138679 @default.
W4220860604 cites W3103065796 @default.
W4220860604 cites W3103472810 @default.
W4220860604 cites W3104769350 @default.
W4220860604 cites W3120124236 @default.
W4220860604 cites W3132668956 @default.
W4220860604 cites W3132908354 @default.
W4220860604 cites W3138137652 @default.
W4220860604 cites W3158166198 @default.
W4220860604 cites W3168364405 @default.
W4220860604 cites W3172475987 @default.
W4220860604 cites W3177311726 @default.
W4220860604 cites W3186560280 @default.
W4220860604 cites W3208859042 @default.
W4220860604 cites W3211547565 @default.
W4220860604 doi "https://doi.org/10.1103/physreva.105.033512" @default.
W4220860604 hasPublicationYear "2022" @default.
W4220860604 type Work @default.
W4220860604 citedByCount "5" @default.
W4220860604 countsByYear W42208606042022 @default.
W4220860604 countsByYear W42208606042023 @default.
W4220860604 crossrefType "journal-article" @default.
W4220860604 hasAuthorship W4220860604A5004024447 @default.
W4220860604 hasAuthorship W4220860604A5004366207 @default.
W4220860604 hasAuthorship W4220860604A5012928424 @default.
W4220860604 hasAuthorship W4220860604A5040040696 @default.
W4220860604 hasAuthorship W4220860604A5063563270 @default.
W4220860604 hasAuthorship W4220860604A5066505965 @default.
W4220860604 hasAuthorship W4220860604A5080107062 @default.
W4220860604 hasConcept C114614502 @default.
W4220860604 hasConcept C121332964 @default.
W4220860604 hasConcept C134306372 @default.
W4220860604 hasConcept C184720557 @default.
W4220860604 hasConcept C24890656 @default.
W4220860604 hasConcept C2781204021 @default.
W4220860604 hasConcept C32834561 @default.
W4220860604 hasConcept C33923547 @default.
W4220860604 hasConcept C62520636 @default.