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Phase-Locked loops lock-in range in Frequency Modulated-Atomic Force Microscope nonlinear control system

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dc.contributor.authorBueno, Atila Madureira
dc.contributor.authorBalthazar, José Manoel [UNESP]
dc.contributor.authorCastilho Piqueira, Jose Roberto
dc.contributor.institutionUniversidade Estadual Paulista (Unesp)
dc.contributor.institutionUniversidade de São Paulo (USP)
dc.date.accessioned2013-09-30T18:50:22Z
dc.date.accessioned2014-05-20T14:16:16Z
dc.date.available2013-09-30T18:50:22Z
dc.date.available2014-05-20T14:16:16Z
dc.date.issued2012-07-01
dc.description.abstractSince the mid 1980s the Atomic Force Microscope is one the most powerful tools to perform surface investigation, and since 1995 Non-Contact AFM achieved true atomic resolution. The Frequency-Modulated Atomic Force Microscope (FM-AFM) operates in the dynamic mode, which means that the control system of the FM-AFM must force the micro-cantilever to oscillate with constant amplitude and frequency. However, tip-sample interaction forces cause modulations in the microcantilever motion. A Phase-Locked loop (PLL) is used to demodulate the tip-sample interaction forces from the microcantilever motion. The demodulated signal is used as the feedback signal to the control system, and to generate both topographic and dissipation images. As a consequence, a proper design of the PLL is vital to the FM-AFM performance. In this work, using bifurcation analysis, the lock-in range of the PLL is determined as a function of the frequency shift (Q) of the microcantilever and of the other design parameters, providing a technique to properly design the PLL in the FM-AFM system. (C) 2011 Elsevier B.V. All rights reserved.en
dc.description.affiliationUniv Estadual Paulista, Dept Estat Matemat Aplicada & Comp, DEMAC, BR-13506900 Rio Claro, SP, Brazil
dc.description.affiliationUniv São Paulo, Escola Politecn, Dept Telecomunicacoaes & Controle, Ptc, Brazil
dc.description.affiliationUnespUniv Estadual Paulista, Dept Estat Matemat Aplicada & Comp, DEMAC, BR-13506900 Rio Claro, SP, Brazil
dc.format.extent3101-3111
dc.identifierhttp://dx.doi.org/10.1016/j.cnsns.2011.11.023
dc.identifier.citationCommunications In Nonlinear Science and Numerical Simulation. Amsterdam: Elsevier B.V., v. 17, n. 7, p. 3101-3111, 2012.
dc.identifier.doi10.1016/j.cnsns.2011.11.023
dc.identifier.issn1007-5704
dc.identifier.urihttp://hdl.handle.net/11449/24895
dc.identifier.wosWOS:000301094200037
dc.language.isoeng
dc.publisherElsevier B.V.
dc.relation.ispartofCommunications in Nonlinear Science and Numerical Simulation
dc.relation.ispartofjcr3.181
dc.relation.ispartofsjr1,372
dc.rights.accessRightsAcesso restrito
dc.sourceWeb of Science
dc.subjectFrequency-Modulated Atomic Forceen
dc.subjectMicroscopyen
dc.subjectPhase-Locked loopsen
dc.subjectBifurcationen
dc.subjectNonlinear dynamicsen
dc.subjectMathematical modelen
dc.titlePhase-Locked loops lock-in range in Frequency Modulated-Atomic Force Microscope nonlinear control systemen
dc.typeArtigo
dcterms.licensehttp://www.elsevier.com/about/open-access/open-access-policies/article-posting-policy
dcterms.rightsHolderElsevier B.V.
dspace.entity.typePublication
unesp.author.lattes7416585768192991[1]
unesp.author.orcid0000-0002-1113-3330[1]
unesp.campusUniversidade Estadual Paulista (UNESP), Instituto de Geociências e Ciências Exatas, Rio Claropt
unesp.departmentEstatística, Matemática Aplicada e Computação - IGCEpt

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Rio Claro - IGCE - Instituto de Geociências e Ciências Exatas