SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3048332313> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W3048332313 abstract "We combine the dynamics of open quantum systems with interferometry and interference introducing the concept of open system interferometer. By considering a single photon in a Mach-Zehnder interferometer, where the polarization (open system) and frequency (environment) of the photon interact, we theoretically show how inside the interferometer path-wise polarization dephasing dynamics is Markovian while the joint dynamics displays non-Markovian features. Outside the interferometer and due to interference, the open system displays rich dynamical features with distinct alternatives: Only one path displaying non-Markovian memory effects, both paths individually displaying them, or no memory effects appearing at all. Our results also illustrate that measuring the photon's path can either create or destroy non-Markovian memory effects depending on whether the measurement takes place in or outside the interferometer. Moreover, the scheme allows to probe the optical path difference inside the interferometer by studying non-Markovianity outside the interferometer. With our framework and interference, it is also possible to introduce dissipative features for the open system dynamics even though the system-environment interaction itself contains only dephasing. In general, the results open so far unexplored avenues to control open system dynamics and for fundamental studies of quantum physics." @default.
W3048332313 created "2020-08-13" @default.
W3048332313 creator A5031812225 @default.
W3048332313 creator A5044709539 @default.
W3048332313 creator A5080060588 @default.
W3048332313 date "2021-03-29" @default.
W3048332313 modified "2023-09-26" @default.
W3048332313 title "Interferometric approach to open quantum systems and non-Markovian dynamics" @default.
W3048332313 cites W1596792582 @default.
W3048332313 cites W1968661061 @default.
W3048332313 cites W1970944921 @default.
W3048332313 cites W1974477498 @default.
W3048332313 cites W1975677983 @default.
W3048332313 cites W1992115687 @default.
W3048332313 cites W1996075932 @default.
W3048332313 cites W2000447247 @default.
W3048332313 cites W2008925509 @default.
W3048332313 cites W2024294839 @default.
W3048332313 cites W2035621329 @default.
W3048332313 cites W2040403765 @default.
W3048332313 cites W2047497165 @default.
W3048332313 cites W2051487804 @default.
W3048332313 cites W2056995977 @default.
W3048332313 cites W2082654621 @default.
W3048332313 cites W2090471280 @default.
W3048332313 cites W2125303188 @default.
W3048332313 cites W2181284682 @default.
W3048332313 cites W2203720464 @default.
W3048332313 cites W2312867736 @default.
W3048332313 cites W2342451321 @default.
W3048332313 cites W2410406417 @default.
W3048332313 cites W2530658632 @default.
W3048332313 cites W2769478465 @default.
W3048332313 cites W2778156313 @default.
W3048332313 cites W2786716216 @default.
W3048332313 cites W2791979249 @default.
W3048332313 cites W2891110007 @default.
W3048332313 cites W2900048485 @default.
W3048332313 cites W2910172672 @default.
W3048332313 cites W2920854286 @default.
W3048332313 cites W2963183710 @default.
W3048332313 cites W2969971390 @default.
W3048332313 cites W2984022008 @default.
W3048332313 cites W2999178951 @default.
W3048332313 cites W3002714662 @default.
W3048332313 cites W3004074376 @default.
W3048332313 cites W3007444580 @default.
W3048332313 cites W3016950706 @default.
W3048332313 cites W3039559212 @default.
W3048332313 cites W3089220293 @default.
W3048332313 cites W3100140276 @default.
W3048332313 cites W3100741959 @default.
W3048332313 cites W3100980856 @default.
W3048332313 cites W3102297121 @default.
W3048332313 cites W3103440740 @default.
W3048332313 cites W3103799070 @default.
W3048332313 cites W3105943009 @default.
W3048332313 cites W792163153 @default.
W3048332313 doi "https://doi.org/10.1103/physreva.103.032223" @default.
W3048332313 hasPublicationYear "2021" @default.
W3048332313 type Work @default.
W3048332313 sameAs 3048332313 @default.
W3048332313 citedByCount "10" @default.
W3048332313 countsByYear W30483323132021 @default.
W3048332313 countsByYear W30483323132022 @default.
W3048332313 countsByYear W30483323132023 @default.
W3048332313 crossrefType "journal-article" @default.
W3048332313 hasAuthorship W3048332313A5031812225 @default.
W3048332313 hasAuthorship W3048332313A5044709539 @default.
W3048332313 hasAuthorship W3048332313A5080060588 @default.
W3048332313 hasBestOaLocation W30483323132 @default.
W3048332313 hasConcept C121332964 @default.
W3048332313 hasConcept C121864883 @default.
W3048332313 hasConcept C12296473 @default.
W3048332313 hasConcept C127162648 @default.
W3048332313 hasConcept C147789679 @default.
W3048332313 hasConcept C159317903 @default.
W3048332313 hasConcept C163677043 @default.
W3048332313 hasConcept C166689943 @default.
W3048332313 hasConcept C185592680 @default.
W3048332313 hasConcept C190463098 @default.
W3048332313 hasConcept C190474826 @default.
W3048332313 hasConcept C199360897 @default.
W3048332313 hasConcept C205049153 @default.
W3048332313 hasConcept C23576306 @default.
W3048332313 hasConcept C2777904410 @default.
W3048332313 hasConcept C2781181686 @default.
W3048332313 hasConcept C32022120 @default.
W3048332313 hasConcept C41008148 @default.
W3048332313 hasConcept C49023278 @default.
W3048332313 hasConcept C62520636 @default.
W3048332313 hasConcept C68717125 @default.
W3048332313 hasConcept C76155785 @default.
W3048332313 hasConcept C84114770 @default.
W3048332313 hasConcept C89143813 @default.
W3048332313 hasConcept C95418871 @default.
W3048332313 hasConcept C99692599 @default.
W3048332313 hasConceptScore W3048332313C121332964 @default.
W3048332313 hasConceptScore W3048332313C121864883 @default.
W3048332313 hasConceptScore W3048332313C12296473 @default.