SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4380786592> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W4380786592 abstract "We revisit the implementation of a two-qubit entangling gate, the Mo{}lmer-So{}rensen gate, using the adiabatic Rydberg dressing paradigm for neutral atoms as studied in [A. Mitra et al., Phys. Rev. A 101, 030301(R) (2020)]. We study the implementation of rapid adiabatic passage using a two-photon transition, which does not require the use of an ultraviolet laser, and can be implemented using only amplitude modulation of one field with all laser frequencies fixed. We find that entangling gate fidelities, comparable to the one-photon excitation, are achievable with the two-photon excitation. Moreover, we address how the adiabatic dressing protocol can be used to implement entangling gates outside the regime of a perfect Rydberg blockade. We show that, by using adiabatic dressing, we can achieve scaling of the gate fidelity set by the fundamental limits to entanglement generated by the Rydberg interactions while simultaneously retaining a limited population in the doubly excited Rydberg state. This allows for fast high-fidelity gates for atoms separated beyond the blockade radius." @default.
W4380786592 created "2023-06-16" @default.
W4380786592 creator A5001544210 @default.
W4380786592 creator A5018681679 @default.
W4380786592 creator A5028306012 @default.
W4380786592 creator A5063522803 @default.
W4380786592 creator A5064362400 @default.
W4380786592 date "2023-06-15" @default.
W4380786592 modified "2023-09-24" @default.
W4380786592 title "Neutral-atom entanglement using adiabatic Rydberg dressing" @default.
W4380786592 cites W1501304262 @default.
W4380786592 cites W1977997915 @default.
W4380786592 cites W1985667068 @default.
W4380786592 cites W1991928234 @default.
W4380786592 cites W2014586701 @default.
W4380786592 cites W2026920019 @default.
W4380786592 cites W2027238340 @default.
W4380786592 cites W2035967986 @default.
W4380786592 cites W2050330900 @default.
W4380786592 cites W2066365197 @default.
W4380786592 cites W2075775100 @default.
W4380786592 cites W2100693591 @default.
W4380786592 cites W2134477962 @default.
W4380786592 cites W2149780242 @default.
W4380786592 cites W2158000927 @default.
W4380786592 cites W2299768518 @default.
W4380786592 cites W2398162417 @default.
W4380786592 cites W2462473390 @default.
W4380786592 cites W2512556493 @default.
W4380786592 cites W2519812197 @default.
W4380786592 cites W2618465568 @default.
W4380786592 cites W2735457220 @default.
W4380786592 cites W2764086158 @default.
W4380786592 cites W2789110996 @default.
W4380786592 cites W2807782051 @default.
W4380786592 cites W2889426946 @default.
W4380786592 cites W2890999059 @default.
W4380786592 cites W2965071503 @default.
W4380786592 cites W2967003869 @default.
W4380786592 cites W2967514345 @default.
W4380786592 cites W2967948480 @default.
W4380786592 cites W2969592673 @default.
W4380786592 cites W2983791159 @default.
W4380786592 cites W2999078546 @default.
W4380786592 cites W3005983610 @default.
W4380786592 cites W3032938294 @default.
W4380786592 cites W3100593949 @default.
W4380786592 cites W3103615004 @default.
W4380786592 cites W3103634851 @default.
W4380786592 cites W3103832819 @default.
W4380786592 cites W3129404680 @default.
W4380786592 cites W3132238263 @default.
W4380786592 cites W3179449082 @default.
W4380786592 cites W3180039530 @default.
W4380786592 cites W3191494141 @default.
W4380786592 cites W3191672951 @default.
W4380786592 cites W3198459488 @default.
W4380786592 cites W3205382035 @default.
W4380786592 cites W3216583973 @default.
W4380786592 cites W4224254118 @default.
W4380786592 cites W4225259930 @default.
W4380786592 cites W4225299264 @default.
W4380786592 cites W4225624094 @default.
W4380786592 cites W4225985538 @default.
W4380786592 cites W4379470039 @default.
W4380786592 doi "https://doi.org/10.1103/physreva.107.062609" @default.
W4380786592 hasPublicationYear "2023" @default.
W4380786592 type Work @default.
W4380786592 citedByCount "1" @default.
W4380786592 countsByYear W43807865922023 @default.
W4380786592 crossrefType "journal-article" @default.
W4380786592 hasAuthorship W4380786592A5001544210 @default.
W4380786592 hasAuthorship W4380786592A5018681679 @default.
W4380786592 hasAuthorship W4380786592A5028306012 @default.
W4380786592 hasAuthorship W4380786592A5063522803 @default.
W4380786592 hasAuthorship W4380786592A5064362400 @default.
W4380786592 hasBestOaLocation W43807865922 @default.
W4380786592 hasConcept C109663097 @default.
W4380786592 hasConcept C116225407 @default.
W4380786592 hasConcept C121040770 @default.
W4380786592 hasConcept C121332964 @default.
W4380786592 hasConcept C145148216 @default.
W4380786592 hasConcept C149635348 @default.
W4380786592 hasConcept C159317903 @default.
W4380786592 hasConcept C184779094 @default.
W4380786592 hasConcept C198291218 @default.
W4380786592 hasConcept C203087015 @default.
W4380786592 hasConcept C41008148 @default.
W4380786592 hasConcept C58312451 @default.
W4380786592 hasConcept C62520636 @default.
W4380786592 hasConcept C70747811 @default.
W4380786592 hasConcept C83581075 @default.
W4380786592 hasConcept C84114770 @default.
W4380786592 hasConceptScore W4380786592C109663097 @default.
W4380786592 hasConceptScore W4380786592C116225407 @default.
W4380786592 hasConceptScore W4380786592C121040770 @default.
W4380786592 hasConceptScore W4380786592C121332964 @default.
W4380786592 hasConceptScore W4380786592C145148216 @default.
W4380786592 hasConceptScore W4380786592C149635348 @default.
W4380786592 hasConceptScore W4380786592C159317903 @default.