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Combinatorial algebraic approach for modified second-generation time-delay interferometry

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dc.contributor.authorWu, Zhang-Qi
dc.contributor.authorWang, Pan-Pan
dc.contributor.authorQian, Wei-Liang [UNESP]
dc.contributor.authorShao, Cheng-Gang
dc.contributor.institutionHuazhong Univ Sci & Technol
dc.contributor.institutionUniversidade de São Paulo (USP)
dc.contributor.institutionUniversidade Estadual Paulista (UNESP)
dc.contributor.institutionYangzhou Univ
dc.date.accessioned2025-04-29T19:34:14Z
dc.date.issued2023-01-31
dc.description.abstractWe generalize the combinatorial algebraic approach first proposed by Dhurandhar et al. to construct various classes of modified second-generation time-delay interferometry (TDI) solutions. The main idea behind the original algorithm is to enumerate, in a given order, a specific type of commutator between two monomials defined by the products of particular time-displacement operators. On the one hand, the enumeration process can be implemented using the properties of the commutative ring and the relevant equation for the TDI solution. On the other hand, these commutators are shown to vanish if we only keep up the first-order contributions regarding the rate of change of armlengths. In other words, each commutator furnishes a valid TDI solution pertaining to the given type of modified second-generation combinations. In this work, Dhurandhar's algorithm, which only involved time-delay operators and was primarily applied to Michelson-type solutions, is extended by introducing the time-advance ones and then utilized to seek combinations of the Beacon, Relay, Monitor, Sagnac, and fully symmetric Sagnac types. We discuss the relation between the present scheme's solutions and those obtained by the geometric TDI approach, a wellknown method of exhaustion of virtual optical paths. In particular, we report the results on novel Sagnacinspired solutions that cannot be straightforwardly obtained using the geometric TDI algorithm. The average response functions, floor noise power spectral densities, and sensitivity functions are evaluated for the obtained solutions.en
dc.description.affiliationHuazhong Univ Sci & Technol, PGMF, MOE Key Lab Fundamental Phys Quant Measurement, Hubei Key Lab Gravitat & Quantum Phys, Wuhan 430074, Peoples R China
dc.description.affiliationHuazhong Univ Sci & Technol, Sch Phys, Wuhan 430074, Peoples R China
dc.description.affiliationUniv Sao Paulo, Escola Engn Lorena, BR-12602810 Lorena, SP, Brazil
dc.description.affiliationUniv Estadual Paulista, Fac Engn Guaratingueta, BR-12516410 Guaratingueta, SP, Brazil
dc.description.affiliationYangzhou Univ, Coll Phys Sci & Technol, Ctr Gravitat & Cosmol, Yangzhou 225009, Peoples R China
dc.description.affiliationUnespUniv Estadual Paulista, Fac Engn Guaratingueta, BR-12516410 Guaratingueta, SP, Brazil
dc.description.sponsorshipNational Key R&D Program of China
dc.description.sponsorshipNational Natural Science Foundation of China
dc.description.sponsorshipPostdoctoral Science Foundation of China
dc.description.sponsorshipGuangdong Major project of Basic and Applied Basic Research
dc.description.sponsorshipFundamental Research Funds for the Central Universities
dc.description.sponsorshipFundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
dc.description.sponsorshipFundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ)
dc.description.sponsorshipConselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
dc.description.sponsorshipCoordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
dc.description.sponsorshipIdNational Key R&D Program of China: 2022YFC2204602
dc.description.sponsorshipIdNational Natural Science Foundation of China: 12175076
dc.description.sponsorshipIdNational Natural Science Foundation of China: 11925503
dc.description.sponsorshipIdPostdoctoral Science Foundation of China: 2022M711259
dc.description.sponsorshipIdGuangdong Major project of Basic and Applied Basic Research: 2019B030302001
dc.description.sponsorshipIdFundamental Research Funds for the Central Universities: HUST: 2172019kfyRCPY029
dc.format.extent20
dc.identifierhttp://dx.doi.org/10.1103/PhysRevD.107.024042
dc.identifier.citationPhysical Review D. College Pk: Amer Physical Soc, v. 107, n. 2, 20 p., 2023.
dc.identifier.doi10.1103/PhysRevD.107.024042
dc.identifier.issn2470-0010
dc.identifier.urihttps://hdl.handle.net/11449/304217
dc.identifier.wosWOS:000989220200016
dc.language.isoeng
dc.publisherAmer Physical Soc
dc.relation.ispartofPhysical Review D
dc.sourceWeb of Science
dc.titleCombinatorial algebraic approach for modified second-generation time-delay interferometryen
dc.typeArtigopt
dcterms.licensehttp://publish.aps.org/authors/transfer-of-copyright-agreement
dcterms.rightsHolderAmer Physical Soc
dspace.entity.typePublication
relation.isOrgUnitOfPublicationa4071986-4355-47c3-a5a3-bd4d1a966e4f
relation.isOrgUnitOfPublication.latestForDiscoverya4071986-4355-47c3-a5a3-bd4d1a966e4f
unesp.author.orcid0000-0003-3433-3818[2]
unesp.author.orcid0000-0002-3450-1984[3]
unesp.campusUniversidade Estadual Paulista (UNESP), Faculdade de Engenharia e Ciências, Guaratinguetápt

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