Publication:
Advanced materials and device architectures for magnetooptical spatial light modulators

dc.contributor.departmentDepartment of Electrical and Electronics Engineering
dc.contributor.departmentGraduate School of Sciences and Engineering
dc.contributor.kuauthorKharratian, Soheila
dc.contributor.kuauthorOnbaşlı, Mehmet Cengiz
dc.contributor.kuauthorÜrey, Hakan
dc.contributor.schoolcollegeinstituteCollege of Engineering
dc.contributor.schoolcollegeinstituteGRADUATE SCHOOL OF SCIENCES AND ENGINEERING
dc.date.accessioned2024-11-09T13:46:08Z
dc.date.issued2019
dc.description.abstractFaraday and Kerr rotations are magnetooptical (MO) effects used for rotating the polarization of light in transmission and reflection from a magnetized medium, respectively. MO effects combined with intrinsically fast magnetization reversal, which can go down to a few tens of femtoseconds or less, can be applied in magnetooptical spatial light modulators (MOSLMs) promising for nonvolatile, ultrafast, and high-resolution spatial modulation of light. With the recent progress in low-power switching of magnetic and MO materials, MOSLMs may lead to major breakthroughs and benefit beyond state-of-the-art holography, data storage, optical communications, heads-up displays, virtual and augmented reality devices, and solid-state light detection and ranging (LIDAR). In this study, the recent developments in the growth, processing, and engineering of advanced materials with high MO figures of merit for practical MOSLM devices are reviewed. The challenges with MOSLM functionalities including the intrinsic weakness of MO effect and large power requirement for switching are assessed. The suggested solutions are evaluated, different driving systems are investigated, and resulting device architectures are benchmarked. Finally, the research opportunities on MOSLMs for achieving integrated, high-contrast, and low-power devices are presented.
dc.description.fulltextYES
dc.description.indexedbyWOS
dc.description.indexedbyScopus
dc.description.issue1
dc.description.openaccessYES
dc.description.publisherscopeInternational
dc.description.sponsoredbyTubitakEuEU - TÜBİTAK
dc.description.sponsorshipScientific and Technological Research Council of Turkey (TÜBİTAK)
dc.description.sponsorshipEuropean Union (EU)
dc.description.sponsorshipHorizon 2020
dc.description.sponsorshipEuropean Research Council (ERC)
dc.description.sponsorshipEuropean Research Council Advanced Grant (ERC-AdG) Wear3D Project
dc.description.sponsorshipBAGEP 2017 Award
dc.description.versionPublisher version
dc.description.volume8
dc.identifier.doi10.1002/adom.201901381
dc.identifier.embargoNO
dc.identifier.filenameinventorynoIR01597
dc.identifier.issn2195-1071
dc.identifier.quartileQ1
dc.identifier.scopus2-s2.0-85075469510
dc.identifier.urihttps://doi.org/10.1002/adom.201901381
dc.identifier.wos498250400001
dc.keywordsGarnets and magnetooptical oxides
dc.keywordsMagnetooptics
dc.keywordsPhotonic crystals
dc.keywordsSpatial light modulators
dc.language.isoeng
dc.publisherWiley-VCH
dc.relation.grantno117F416
dc.relation.grantno340200
dc.relation.ispartofAdvanced Optical Materials
dc.relation.urihttp://cdm21054.contentdm.oclc.org/cdm/ref/collection/IR/id/8218
dc.subjectMaterials science
dc.subjectOptics
dc.titleAdvanced materials and device architectures for magnetooptical spatial light modulators
dc.typeReview
dspace.entity.typePublication
local.contributor.kuauthorKharratian, Soheila
local.contributor.kuauthorOnbaşlı, Mehmet Cengiz
local.contributor.kuauthorÜrey, Hakan
local.publication.orgunit1GRADUATE SCHOOL OF SCIENCES AND ENGINEERING
local.publication.orgunit1College of Engineering
local.publication.orgunit2Department of Electrical and Electronics Engineering
local.publication.orgunit2Graduate School of Sciences and Engineering
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