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Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/4142
DC FieldValueLanguage
dc.contributor.authorDavies, Edward M.-
dc.contributor.authorFlorides, Georgios A.-
dc.contributor.authorKalli, Kyriacos-
dc.contributor.authorChristodoulides, Paul-
dc.contributor.otherΚαλλή, Κυριάκος-
dc.contributor.otherΧριστοδουλίδης, Παύλος-
dc.contributor.otherΦλωρίδης, Γεώργιος Α.-
dc.date.accessioned2015-01-29T07:28:24Z-
dc.date.accessioned2015-12-09T11:30:37Z-
dc.date.available2015-01-29T07:28:24Z-
dc.date.available2015-12-09T11:30:37Z-
dc.date.issued2014-11-24-
dc.identifier.citationMaterials, 2014, vol. 7, no. 11, pp. 7566-7582en_US
dc.identifier.issn19961944-
dc.identifier.urihttps://hdl.handle.net/20.500.14279/4142-
dc.description.abstractA finite element analysis (FEA) model has been constructed to predict the thermo-fluidic and optical properties of a microstructure optical fiber (MOF) accounting for changes in external temperature, input water velocity and optical fiber geometry. Modeling a water laminar flow within a water channel has shown that the steady-state temperature is dependent on the water channel radius while independent of the input velocity. There is a critical channel radius below which the steady-state temperature of the water channel is constant, while above, the temperature decreases. However, the distance required to reach steady state within the water channel is dependent on both the input velocity and the channel radius. The MOF has been found capable of supporting multiple modes. Despite the large thermo-optic coefficient of water, the bound modes’ response to temperature was dominated by the thermo-optic coefficient of glass. This is attributed to the majority of the light being confined within the glass, which increased with increasing external temperature due to a larger difference in the refractive index between the glass core and the water channel.en_US
dc.formatpdfen_US
dc.language.isoenen_US
dc.relation.ispartofMaterialsen_US
dc.rights© Multidisciplinary Digital Publishing Instituteen_US
dc.subjectMicrostructure optical fibersen_US
dc.subjectHeat transferen_US
dc.subjectMicrofluidicsen_US
dc.titleMicrofluidic flows and heat transfer and their influence on optical modes in microstructure fibersen_US
dc.typeArticleen_US
dc.collaborationCyprus University of Technologyen_US
dc.subject.categoryElectrical Engineering - Electronic Engineering - Information Engineeringen_US
dc.journalsOpen Accessen_US
dc.reviewPeer Revieweden
dc.countryCyprusen_US
dc.subject.fieldEngineering and Technologyen_US
dc.publicationPeer Revieweden_US
dc.identifier.doi10.3390/ma7117566en_US
dc.dept.handle123456789/134en
dc.relation.issue11en_US
dc.relation.volume7en_US
cut.common.academicyear2014-2015en_US
dc.identifier.spage7566en_US
dc.identifier.epage7582en_US
item.languageiso639-1en-
item.cerifentitytypePublications-
item.fulltextWith Fulltext-
item.grantfulltextopen-
item.openairetypearticle-
item.openairecristypehttp://purl.org/coar/resource_type/c_6501-
crisitem.author.deptDepartment of Mechanical Engineering and Materials Science and Engineering-
crisitem.author.deptDepartment of Electrical Engineering, Computer Engineering and Informatics-
crisitem.author.deptDepartment of Electrical Engineering, Computer Engineering and Informatics-
crisitem.author.facultyFaculty of Engineering and Technology-
crisitem.author.facultyFaculty of Engineering and Technology-
crisitem.author.facultyFaculty of Engineering and Technology-
crisitem.author.orcid0000-0001-9079-1907-
crisitem.author.orcid0000-0003-4541-092X-
crisitem.author.orcid0000-0002-2229-8798-
crisitem.author.parentorgFaculty of Engineering and Technology-
crisitem.author.parentorgFaculty of Engineering and Technology-
crisitem.author.parentorgFaculty of Engineering and Technology-
crisitem.journal.journalissn1996-1944-
crisitem.journal.publisherMDPI-
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