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W3204692972 abstract "Higher-order exceptional points (EPs), resulting from non-Hermitian degeneracies, have shown greater advantages in sensitive enhancement than second-order EPs (EP2s). Therefore, seeking higher-order EPs in various quantum systems is important for quantum information science. Here we propose a benchmark cavity optomechanical (COM) system consisting of a mechanical resonator (MR) coupled to two cavities via radiation pressure for predicting the third-order exceptional point (EP3). We first give the pseudo-Hermitian condition for the non-Hermitian COM system by taking the bath effects into account. Then we consider the mechanical gain effect and we find that the pseudo-Hermitian COM system without $mathcal{PT}$ symmetry can host both the EP3 and EP2 for symmetric and asymmetric cavities. In the symmetric case, only the EP3 or EP2 can be predicted in the parameter space, but the EP3 and EP2 can be transformed into each other by tuning the COM coupling strength in the asymmetric case. We further consider the case of one cavity with gain. For this case, the pseudo-Hermitian COM system is $mathcal{PT}$-symmetric and can also host the EP3 or EP2. The influence of system parameters on them are discussed. Our proposal provides a potential way to realize sensitive detection and study other physical phenomena {around} higher-order EP3 in non-Hermitian COM systems." @default.
W3204692972 created "2021-10-11" @default.
W3204692972 creator A5013604776 @default.
W3204692972 creator A5030840146 @default.
W3204692972 creator A5048338966 @default.
W3204692972 creator A5069437241 @default.
W3204692972 creator A5075655453 @default.
W3204692972 creator A5090682227 @default.
W3204692972 date "2021-12-13" @default.
W3204692972 modified "2023-10-04" @default.
W3204692972 title "Higher-order exceptional point in a pseudo-Hermitian cavity optomechanical system" @default.
W3204692972 cites W1484411399 @default.
W3204692972 cites W1530827818 @default.
W3204692972 cites W1911969426 @default.
W3204692972 cites W1982991836 @default.
W3204692972 cites W1989772619 @default.
W3204692972 cites W1993182759 @default.
W3204692972 cites W1999666486 @default.
W3204692972 cites W2000359448 @default.
W3204692972 cites W2003754526 @default.
W3204692972 cites W2020028184 @default.
W3204692972 cites W2033953054 @default.
W3204692972 cites W2047699813 @default.
W3204692972 cites W2061667617 @default.
W3204692972 cites W2062155132 @default.
W3204692972 cites W2066202639 @default.
W3204692972 cites W2069058356 @default.
W3204692972 cites W2069672988 @default.
W3204692972 cites W2074383155 @default.
W3204692972 cites W2082802265 @default.
W3204692972 cites W2092392984 @default.
W3204692972 cites W2099193168 @default.
W3204692972 cites W2102419267 @default.
W3204692972 cites W2138907746 @default.
W3204692972 cites W2160223254 @default.
W3204692972 cites W2166979817 @default.
W3204692972 cites W2219718266 @default.
W3204692972 cites W2286173540 @default.
W3204692972 cites W2306893573 @default.
W3204692972 cites W2307671968 @default.
W3204692972 cites W2339061762 @default.
W3204692972 cites W2395614120 @default.
W3204692972 cites W2520227764 @default.
W3204692972 cites W2545869715 @default.
W3204692972 cites W2603071922 @default.
W3204692972 cites W2620709479 @default.
W3204692972 cites W2733896976 @default.
W3204692972 cites W2739884744 @default.
W3204692972 cites W2744045251 @default.
W3204692972 cites W2744151324 @default.
W3204692972 cites W2745333898 @default.
W3204692972 cites W2766522556 @default.
W3204692972 cites W2768107904 @default.
W3204692972 cites W2781491230 @default.
W3204692972 cites W2785230806 @default.
W3204692972 cites W2817470878 @default.
W3204692972 cites W2884648938 @default.
W3204692972 cites W2896457381 @default.
W3204692972 cites W2900507081 @default.
W3204692972 cites W2919522283 @default.
W3204692972 cites W2930665417 @default.
W3204692972 cites W2947653518 @default.
W3204692972 cites W2958924501 @default.
W3204692972 cites W2964205455 @default.
W3204692972 cites W2974560428 @default.
W3204692972 cites W2976994215 @default.
W3204692972 cites W2981458509 @default.
W3204692972 cites W2982841960 @default.
W3204692972 cites W2994665279 @default.
W3204692972 cites W3012029914 @default.
W3204692972 cites W3015941323 @default.
W3204692972 cites W3023278619 @default.
W3204692972 cites W3034256547 @default.
W3204692972 cites W3037306418 @default.
W3204692972 cites W3038300569 @default.
W3204692972 cites W3046722710 @default.
W3204692972 cites W3092087256 @default.
W3204692972 cites W3095780666 @default.
W3204692972 cites W3098009122 @default.
W3204692972 cites W3099095820 @default.
W3204692972 cites W3103035754 @default.
W3204692972 cites W3103498093 @default.
W3204692972 cites W3105247217 @default.
W3204692972 cites W3105497786 @default.
W3204692972 cites W3105813272 @default.
W3204692972 cites W3106321527 @default.
W3204692972 cites W3122158587 @default.
W3204692972 cites W3126810875 @default.
W3204692972 cites W3139044674 @default.
W3204692972 cites W3153604354 @default.
W3204692972 cites W3154570490 @default.
W3204692972 cites W3158759207 @default.
W3204692972 cites W3171593452 @default.
W3204692972 cites W3172441425 @default.
W3204692972 cites W3199232041 @default.
W3204692972 cites W3208859042 @default.
W3204692972 cites W3214048309 @default.
W3204692972 cites W4206330281 @default.
W3204692972 cites W4212834654 @default.
W3204692972 doi "https://doi.org/10.1103/physreva.104.063508" @default.