SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220764811> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W4220764811 abstract "Optically trapped mixed-species single atom arrays with arbitrary geometry are an attractive and promising platform for various applications, because tunable quantum systems with multiple components provide extra degrees of freedom for experimental control. Here, we report the first demonstration of two-dimensional 6×4 dual-species atom assembly of ^{85}Rb (^{87}Rb) atoms with a filling fraction of 0.88 (0.89). This mixed-species atomic synthesis is achieved via rearranging initially randomly distributed atoms by a sorting algorithm (heuristic heteronuclear algorithm) which is designed for bottom-up atom assembly with both user-defined geometries and two-species atom number ratios. Our fully tunable hybrid-atom systems with scalable advantages are a good starting point for high-fidelity quantum logic, many-body quantum simulation, and single molecule array formation." @default.
W4220764811 created "2022-04-03" @default.
W4220764811 creator A5005659413 @default.
W4220764811 creator A5013561595 @default.
W4220764811 creator A5017353282 @default.
W4220764811 creator A5018244700 @default.
W4220764811 creator A5018788436 @default.
W4220764811 creator A5037437942 @default.
W4220764811 creator A5056064654 @default.
W4220764811 creator A5075032226 @default.
W4220764811 creator A5081338275 @default.
W4220764811 creator A5083572604 @default.
W4220764811 creator A5084704775 @default.
W4220764811 date "2022-02-24" @default.
W4220764811 modified "2023-10-14" @default.
W4220764811 title "Defect-Free Arbitrary-Geometry Assembly of Mixed-Species Atom Arrays" @default.
W4220764811 cites W1738041892 @default.
W4220764811 cites W1790773435 @default.
W4220764811 cites W183072596 @default.
W4220764811 cites W1908099874 @default.
W4220764811 cites W2011109561 @default.
W4220764811 cites W2030867075 @default.
W4220764811 cites W2067511852 @default.
W4220764811 cites W2099277972 @default.
W4220764811 cites W2166450277 @default.
W4220764811 cites W2307525577 @default.
W4220764811 cites W2398162417 @default.
W4220764811 cites W2437680848 @default.
W4220764811 cites W2461107845 @default.
W4220764811 cites W2491834215 @default.
W4220764811 cites W2548871540 @default.
W4220764811 cites W2552781946 @default.
W4220764811 cites W2587672268 @default.
W4220764811 cites W2609521486 @default.
W4220764811 cites W2735457220 @default.
W4220764811 cites W2739146702 @default.
W4220764811 cites W2780990104 @default.
W4220764811 cites W2798111878 @default.
W4220764811 cites W2799113375 @default.
W4220764811 cites W2890999059 @default.
W4220764811 cites W2913732924 @default.
W4220764811 cites W2941205559 @default.
W4220764811 cites W2948709458 @default.
W4220764811 cites W2960542242 @default.
W4220764811 cites W2964197261 @default.
W4220764811 cites W2964630461 @default.
W4220764811 cites W2967003869 @default.
W4220764811 cites W2967514345 @default.
W4220764811 cites W2972699571 @default.
W4220764811 cites W2973042894 @default.
W4220764811 cites W3012020238 @default.
W4220764811 cites W3016661188 @default.
W4220764811 cites W3088438994 @default.
W4220764811 cites W3098159263 @default.
W4220764811 cites W3098490864 @default.
W4220764811 cites W3100843411 @default.
W4220764811 cites W3101426351 @default.
W4220764811 cites W3102811374 @default.
W4220764811 cites W3103634851 @default.
W4220764811 cites W3110166686 @default.
W4220764811 cites W3111225753 @default.
W4220764811 cites W3112161336 @default.
W4220764811 cites W3129404680 @default.
W4220764811 cites W3147123103 @default.
W4220764811 cites W3148902217 @default.
W4220764811 cites W3179449082 @default.
W4220764811 cites W3180039530 @default.
W4220764811 cites W3196855131 @default.
W4220764811 doi "https://doi.org/10.1103/physrevlett.128.083202" @default.
W4220764811 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35275661" @default.
W4220764811 hasPublicationYear "2022" @default.
W4220764811 type Work @default.
W4220764811 citedByCount "20" @default.
W4220764811 countsByYear W42207648112022 @default.
W4220764811 countsByYear W42207648112023 @default.
W4220764811 crossrefType "journal-article" @default.
W4220764811 hasAuthorship W4220764811A5005659413 @default.
W4220764811 hasAuthorship W4220764811A5013561595 @default.
W4220764811 hasAuthorship W4220764811A5017353282 @default.
W4220764811 hasAuthorship W4220764811A5018244700 @default.
W4220764811 hasAuthorship W4220764811A5018788436 @default.
W4220764811 hasAuthorship W4220764811A5037437942 @default.
W4220764811 hasAuthorship W4220764811A5056064654 @default.
W4220764811 hasAuthorship W4220764811A5075032226 @default.
W4220764811 hasAuthorship W4220764811A5081338275 @default.
W4220764811 hasAuthorship W4220764811A5083572604 @default.
W4220764811 hasAuthorship W4220764811A5084704775 @default.
W4220764811 hasBestOaLocation W42207648112 @default.
W4220764811 hasConcept C114614502 @default.
W4220764811 hasConcept C121332964 @default.
W4220764811 hasConcept C149635348 @default.
W4220764811 hasConcept C184720557 @default.
W4220764811 hasConcept C192562407 @default.
W4220764811 hasConcept C208081375 @default.
W4220764811 hasConcept C32909587 @default.
W4220764811 hasConcept C33923547 @default.
W4220764811 hasConcept C41008148 @default.
W4220764811 hasConcept C41999313 @default.
W4220764811 hasConcept C58312451 @default.
W4220764811 hasConcept C62520636 @default.