FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2597883217> ?p ?o ?g. }

• W2597883217 abstract "Single photons are excellent quantum information carriers, but current schemes for preparing, processing and measuring them are inefficient. This paper introduces a process termed coherent photon conversion that could provide a new way to generate and process complex multiquanta states for photonic quantum information applications. The new scheme is not restricted to optical systems, and could also function in optomechanical, electromechanical and superconducting systems that exhibit even stronger intrinsic nonlinearities. Single photons are excellent quantum information carriers: they were used in the earliest demonstrations of entanglement1 and in the production of the highest-quality entanglement reported so far2,3. However, current schemes for preparing, processing and measuring them are inefficient. For example, down-conversion provides heralded, but randomly timed, single photons4, and linear optics gates are inherently probabilistic5. Here we introduce a deterministic process—coherent photon conversion (CPC)—that provides a new way to generate and process complex, multiquanta states for photonic quantum information applications. The technique uses classically pumped nonlinearities to induce coherent oscillations between orthogonal states of multiple quantum excitations. One example of CPC, based on a pumped four-wave-mixing interaction, is shown to yield a single, versatile process that provides a full set of photonic quantum processing tools. This set satisfies the DiVincenzo criteria for a scalable quantum computing architecture6, including deterministic multiqubit entanglement gates (based on a novel form of photon–photon interaction), high-quality heralded single- and multiphoton states free from higher-order imperfections, and robust, high-efficiency detection. It can also be used to produce heralded multiphoton entanglement, create optically switchable quantum circuits and implement an improved form of down-conversion with reduced higher-order effects. Such tools are valuable building blocks for many quantum-enabled technologies. Finally, using photonic crystal fibres we experimentally demonstrate quantum correlations arising from a four-colour nonlinear process suitable for CPC and use these measurements to study the feasibility of reaching the deterministic regime with current technology4,7. Our scheme, which is based on interacting bosonic fields, is not restricted to optical systems but could also be implemented in optomechanical, electromechanical and superconducting systems8,9,10,11,12 with extremely strong intrinsic nonlinearities. Furthermore, exploiting higher-order nonlinearities with multiple pump fields yields a mechanism for multiparty mediation of the complex, coherent dynamics." @default.
• W2597883217 created "2017-04-07" @default.
• W2597883217 creator A5001105113 @default.
• W2597883217 creator A5021427054 @default.
• W2597883217 creator A5022295690 @default.
• W2597883217 creator A5054787376 @default.
• W2597883217 creator A5062597899 @default.
• W2597883217 creator A5081546262 @default.
• W2597883217 date "2012-03-01" @default.
• W2597883217 modified "2023-09-26" @default.
• W2597883217 title "Efficient quantum computing using coherent photon conversion" @default.
• W2597883217 hasPublicationYear "2012" @default.
• W2597883217 type Work @default.
• W2597883217 sameAs 2597883217 @default.
• W2597883217 citedByCount "0" @default.
• W2597883217 crossrefType "journal-article" @default.
• W2597883217 hasAuthorship W2597883217A5001105113 @default.
• W2597883217 hasAuthorship W2597883217A5021427054 @default.
• W2597883217 hasAuthorship W2597883217A5022295690 @default.
• W2597883217 hasAuthorship W2597883217A5054787376 @default.
• W2597883217 hasAuthorship W2597883217A5062597899 @default.
• W2597883217 hasAuthorship W2597883217A5081546262 @default.
• W2597883217 hasConcept C121040770 @default.
• W2597883217 hasConcept C121332964 @default.
• W2597883217 hasConcept C152026323 @default.
• W2597883217 hasConcept C159317903 @default.
• W2597883217 hasConcept C169699857 @default.
• W2597883217 hasConcept C186468114 @default.
• W2597883217 hasConcept C190463098 @default.
• W2597883217 hasConcept C190474826 @default.
• W2597883217 hasConcept C20788544 @default.
• W2597883217 hasConcept C5320026 @default.
• W2597883217 hasConcept C58053490 @default.
• W2597883217 hasConcept C58849907 @default.
• W2597883217 hasConcept C62520636 @default.
• W2597883217 hasConcept C68717125 @default.
• W2597883217 hasConcept C84114770 @default.
• W2597883217 hasConcept C89143813 @default.
• W2597883217 hasConceptScore W2597883217C121040770 @default.
• W2597883217 hasConceptScore W2597883217C121332964 @default.
• W2597883217 hasConceptScore W2597883217C152026323 @default.
• W2597883217 hasConceptScore W2597883217C159317903 @default.
• W2597883217 hasConceptScore W2597883217C169699857 @default.
• W2597883217 hasConceptScore W2597883217C186468114 @default.
• W2597883217 hasConceptScore W2597883217C190463098 @default.
• W2597883217 hasConceptScore W2597883217C190474826 @default.
• W2597883217 hasConceptScore W2597883217C20788544 @default.
• W2597883217 hasConceptScore W2597883217C5320026 @default.
• W2597883217 hasConceptScore W2597883217C58053490 @default.
• W2597883217 hasConceptScore W2597883217C58849907 @default.
• W2597883217 hasConceptScore W2597883217C62520636 @default.
• W2597883217 hasConceptScore W2597883217C68717125 @default.
• W2597883217 hasConceptScore W2597883217C84114770 @default.
• W2597883217 hasConceptScore W2597883217C89143813 @default.
• W2597883217 hasLocation W25978832171 @default.
• W2597883217 hasOpenAccess W2597883217 @default.
• W2597883217 hasPrimaryLocation W25978832171 @default.
• W2597883217 hasRelatedWork W1584964997 @default.
• W2597883217 hasRelatedWork W1623873312 @default.
• W2597883217 hasRelatedWork W2017619996 @default.
• W2597883217 hasRelatedWork W2033043820 @default.
• W2597883217 hasRelatedWork W2035516109 @default.
• W2597883217 hasRelatedWork W2276977461 @default.
• W2597883217 hasRelatedWork W2320080930 @default.
• W2597883217 hasRelatedWork W2556100295 @default.
• W2597883217 hasRelatedWork W2778069674 @default.
• W2597883217 hasRelatedWork W2955009370 @default.
• W2597883217 hasRelatedWork W2998963978 @default.
• W2597883217 hasRelatedWork W3006668358 @default.
• W2597883217 hasRelatedWork W3014490632 @default.
• W2597883217 hasRelatedWork W3058968458 @default.
• W2597883217 hasRelatedWork W3089587736 @default.
• W2597883217 hasRelatedWork W3102296249 @default.
• W2597883217 hasRelatedWork W3105309716 @default.
• W2597883217 hasRelatedWork W3105737285 @default.
• W2597883217 hasRelatedWork W3125416495 @default.
• W2597883217 hasRelatedWork W3191700352 @default.
• W2597883217 hasVolume "2012" @default.
• W2597883217 isParatext "false" @default.
• W2597883217 isRetracted "false" @default.
• W2597883217 magId "2597883217" @default.
• W2597883217 workType "article" @default.