SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3196388002> ?p ?o ?g. }

Showing items 1 to 100 of ±114 with 100 items per page.

W3196388002 endingPage "2691" @default.
W3196388002 startingPage "2683" @default.
W3196388002 abstract "The continual success of superconducting photon-detection technologies in quantum photonics asserts cryogenic-compatible systems as a cornerstone of full quantum photonic integration. Here, we present a way to reversibly fine-tune the optical properties of individual waveguide structures through local changes to their geometry using solidified xenon. Essentially, we remove the need for additional on-chip calibration elements, effectively zeroing the power consumption tied to reconfigurable elements, with virtually no detriment to photonic device performance. We enable passive circuit tuning in pressure-controlled environments, locally manipulating the cladding thickness over portions of optical waveguides. We realize this in a cryogenic environment, through controlled deposition of xenon gas and precise tuning of its thickness using sublimation, triggered by on-chip resistive heaters. $pi$ phase shifts occur over a calculated length of just $L_{pi}$ = 12.3$pm$0.3 $mu m$. This work paves the way towards the integration of compact, reconfigurable photonic circuits alongside superconducting detectors, devices, or otherwise." @default.
W3196388002 created "2021-09-13" @default.
W3196388002 creator A5016379042 @default.
W3196388002 creator A5036600413 @default.
W3196388002 creator A5050335348 @default.
W3196388002 creator A5068600108 @default.
W3196388002 creator A5076222161 @default.
W3196388002 date "2021-08-27" @default.
W3196388002 modified "2023-09-27" @default.
W3196388002 title "Zero-Power Calibration of Photonic Circuits at Cryogenic Temperatures" @default.
W3196388002 cites W159874351 @default.
W3196388002 cites W1967673033 @default.
W3196388002 cites W1968993775 @default.
W3196388002 cites W1978922051 @default.
W3196388002 cites W1983405455 @default.
W3196388002 cites W1985979359 @default.
W3196388002 cites W1989825712 @default.
W3196388002 cites W2004865479 @default.
W3196388002 cites W2019883289 @default.
W3196388002 cites W2021941329 @default.
W3196388002 cites W2023392689 @default.
W3196388002 cites W2029109895 @default.
W3196388002 cites W2041436620 @default.
W3196388002 cites W2047131277 @default.
W3196388002 cites W2051033774 @default.
W3196388002 cites W2059400011 @default.
W3196388002 cites W2079703146 @default.
W3196388002 cites W2093243188 @default.
W3196388002 cites W2098463095 @default.
W3196388002 cites W2110279136 @default.
W3196388002 cites W2113914108 @default.
W3196388002 cites W2115213492 @default.
W3196388002 cites W2184921019 @default.
W3196388002 cites W2235174674 @default.
W3196388002 cites W2263495678 @default.
W3196388002 cites W2339382162 @default.
W3196388002 cites W2345454972 @default.
W3196388002 cites W2597208492 @default.
W3196388002 cites W2606406942 @default.
W3196388002 cites W2789555118 @default.
W3196388002 cites W2885833035 @default.
W3196388002 cites W2913891200 @default.
W3196388002 cites W2928846321 @default.
W3196388002 cites W2977366474 @default.
W3196388002 cites W3037140120 @default.
W3196388002 cites W3039255102 @default.
W3196388002 cites W3091851330 @default.
W3196388002 cites W3097697691 @default.
W3196388002 cites W3098618272 @default.
W3196388002 cites W3103096722 @default.
W3196388002 cites W3104123234 @default.
W3196388002 cites W3104899502 @default.
W3196388002 cites W3111675225 @default.
W3196388002 cites W3119572714 @default.
W3196388002 cites W3134896547 @default.
W3196388002 cites W4235895703 @default.
W3196388002 doi "https://doi.org/10.1021/acsphotonics.1c00714" @default.
W3196388002 hasPublicationYear "2021" @default.
W3196388002 type Work @default.
W3196388002 sameAs 3196388002 @default.
W3196388002 citedByCount "2" @default.
W3196388002 countsByYear W31963880022022 @default.
W3196388002 crossrefType "journal-article" @default.
W3196388002 hasAuthorship W3196388002A5016379042 @default.
W3196388002 hasAuthorship W3196388002A5036600413 @default.
W3196388002 hasAuthorship W3196388002A5050335348 @default.
W3196388002 hasAuthorship W3196388002A5068600108 @default.
W3196388002 hasAuthorship W3196388002A5076222161 @default.
W3196388002 hasBestOaLocation W31963880022 @default.
W3196388002 hasConcept C119599485 @default.
W3196388002 hasConcept C120665830 @default.
W3196388002 hasConcept C121332964 @default.
W3196388002 hasConcept C127413603 @default.
W3196388002 hasConcept C134146338 @default.
W3196388002 hasConcept C191897082 @default.
W3196388002 hasConcept C192562407 @default.
W3196388002 hasConcept C20788544 @default.
W3196388002 hasConcept C22799297 @default.
W3196388002 hasConcept C36456112 @default.
W3196388002 hasConcept C49040817 @default.
W3196388002 hasConceptScore W3196388002C119599485 @default.
W3196388002 hasConceptScore W3196388002C120665830 @default.
W3196388002 hasConceptScore W3196388002C121332964 @default.
W3196388002 hasConceptScore W3196388002C127413603 @default.
W3196388002 hasConceptScore W3196388002C134146338 @default.
W3196388002 hasConceptScore W3196388002C191897082 @default.
W3196388002 hasConceptScore W3196388002C192562407 @default.
W3196388002 hasConceptScore W3196388002C20788544 @default.
W3196388002 hasConceptScore W3196388002C22799297 @default.
W3196388002 hasConceptScore W3196388002C36456112 @default.
W3196388002 hasConceptScore W3196388002C49040817 @default.
W3196388002 hasFunder F4320334627 @default.
W3196388002 hasIssue "9" @default.
W3196388002 hasLocation W31963880021 @default.
W3196388002 hasLocation W31963880022 @default.
W3196388002 hasOpenAccess W3196388002 @default.
W3196388002 hasPrimaryLocation W31963880021 @default.
W3196388002 hasRelatedWork W1595997302 @default.