SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4295969957> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W4295969957 abstract "We propose how to generate a tripartite light-vibration entanglement by controlling an optical dark mode (ODM), which is induced by the coupling of two optical modes to a common vibrational mode. This ODM is decoupled from the vibration, and it can be controlled on demand by employing a synthetic gauge field, which can enable efficient switching between the ODM-unbreaking and ODM-breaking regimes. We find that the tripartite optomechanical entanglement is largely suppressed in the ODM-unbreaking regime, but it is significantly enhanced in the ODM-breaking regime. In particular, the noise robustness of quantum entanglement in the ODM-breaking regime can be more than twice than that in the ODM-unbreaking regime. This study offers a method for protecting and enhancing fragile quantum resources and for constructing noise-tolerant and dark-mode-immune quantum processors and entangled networks." @default.
W4295969957 created "2022-09-16" @default.
W4295969957 creator A5044155921 @default.
W4295969957 creator A5047609237 @default.
W4295969957 creator A5048800312 @default.
W4295969957 creator A5074686692 @default.
W4295969957 creator A5079671435 @default.
W4295969957 date "2022-08-10" @default.
W4295969957 modified "2023-09-30" @default.
W4295969957 title "Tripartite optomechanical entanglement via optical-dark-mode control" @default.
W4295969957 cites W1655080205 @default.
W4295969957 cites W1761464890 @default.
W4295969957 cites W1922860299 @default.
W4295969957 cites W1965198243 @default.
W4295969957 cites W1966531481 @default.
W4295969957 cites W1970238975 @default.
W4295969957 cites W1979369481 @default.
W4295969957 cites W1980918294 @default.
W4295969957 cites W1982893357 @default.
W4295969957 cites W1982991836 @default.
W4295969957 cites W1983329723 @default.
W4295969957 cites W1984004232 @default.
W4295969957 cites W1985012590 @default.
W4295969957 cites W1987840974 @default.
W4295969957 cites W1988092736 @default.
W4295969957 cites W1996411926 @default.
W4295969957 cites W2003766880 @default.
W4295969957 cites W2006920894 @default.
W4295969957 cites W2019251214 @default.
W4295969957 cites W2020794900 @default.
W4295969957 cites W2022946341 @default.
W4295969957 cites W2024363057 @default.
W4295969957 cites W2035993353 @default.
W4295969957 cites W2040204269 @default.
W4295969957 cites W2045954942 @default.
W4295969957 cites W2048041613 @default.
W4295969957 cites W2051242185 @default.
W4295969957 cites W2051421285 @default.
W4295969957 cites W2052912259 @default.
W4295969957 cites W2058033977 @default.
W4295969957 cites W2071740520 @default.
W4295969957 cites W2074383155 @default.
W4295969957 cites W2077473036 @default.
W4295969957 cites W2082802265 @default.
W4295969957 cites W2093883313 @default.
W4295969957 cites W2109677272 @default.
W4295969957 cites W2110251070 @default.
W4295969957 cites W2132764286 @default.
W4295969957 cites W2133373938 @default.
W4295969957 cites W2139031855 @default.
W4295969957 cites W2146757178 @default.
W4295969957 cites W2217428275 @default.
W4295969957 cites W2262757352 @default.
W4295969957 cites W2339061762 @default.
W4295969957 cites W2502618650 @default.
W4295969957 cites W2511371831 @default.
W4295969957 cites W2552775462 @default.
W4295969957 cites W2590066228 @default.
W4295969957 cites W2622218982 @default.
W4295969957 cites W2747378473 @default.
W4295969957 cites W2757790364 @default.
W4295969957 cites W2758671153 @default.
W4295969957 cites W2767661975 @default.
W4295969957 cites W2795717947 @default.
W4295969957 cites W2797238836 @default.
W4295969957 cites W2817470878 @default.
W4295969957 cites W2885074519 @default.
W4295969957 cites W2894382669 @default.
W4295969957 cites W2953610903 @default.
W4295969957 cites W2968987785 @default.
W4295969957 cites W2987622401 @default.
W4295969957 cites W3037306418 @default.
W4295969957 cites W3037687804 @default.
W4295969957 cites W3037737784 @default.
W4295969957 cites W3043222436 @default.
W4295969957 cites W3048240598 @default.
W4295969957 cites W3082303995 @default.
W4295969957 cites W3091522154 @default.
W4295969957 cites W3098989814 @default.
W4295969957 cites W3102237440 @default.
W4295969957 cites W3102247097 @default.
W4295969957 cites W3102434599 @default.
W4295969957 cites W3102909230 @default.
W4295969957 cites W3103452153 @default.
W4295969957 cites W3103867588 @default.
W4295969957 cites W3105903911 @default.
W4295969957 cites W3116741333 @default.
W4295969957 cites W3122448994 @default.
W4295969957 cites W3125126004 @default.
W4295969957 cites W3158888751 @default.
W4295969957 cites W3159123643 @default.
W4295969957 cites W3194193028 @default.
W4295969957 cites W3211221669 @default.
W4295969957 cites W4206403805 @default.
W4295969957 cites W4254830816 @default.
W4295969957 cites W4289594963 @default.
W4295969957 cites W4289934086 @default.
W4295969957 doi "https://doi.org/10.1103/physrevresearch.4.033112" @default.
W4295969957 hasPublicationYear "2022" @default.
W4295969957 type Work @default.