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dc.contributor.authorLunden, Hampusen_GB
dc.contributor.authorGlimsdal, Eiriken_GB
dc.contributor.authorLindgren, Mikaelen_GB
dc.contributor.authorLopes, Cesaren_GB
dc.date.accessioned2018-04-19T12:41:45Z
dc.date.accessioned2018-08-01T09:07:53Z
dc.date.available2018-04-19T12:41:45Z
dc.date.available2018-08-01T09:07:53Z
dc.date.issued2018
dc.identifier.citationLunden H, Glimsdal EG, Lindgren M, Lopes C. How to assess good candidate molecules for self-activated optical power limiting. Optical Engineering: The Journal of SPIE. 2018;57(3)en_GB
dc.identifier.urihttp://hdl.handle.net/20.500.12242/860
dc.identifier.urihttps://ffi-publikasjoner.archive.knowledgearc.net/handle/20.500.12242/860
dc.descriptionLunden, Hampus; Glimsdal, Eirik; Lindgren, Mikael; Lopes, Cesar. How to assess good candidate molecules for self-activated optical power limiting. Optical Engineering: The Journal of SPIE 2018 ;Volum 57.(3) s.en_GB
dc.description.abstractReverse saturable absorbers have shown great potential to attenuate laser radiation. Good candidate molecules and various particles have successfully been incorporated into different glass matrices, enabling the creation of self-activated filters against damaging laser radiation. Although the performance of such filters has been impressive, work is still ongoing to improve the performance in a wider range of wavelengths and pulse widths. The purpose of this tutorial is, from an optical engineering perspective, to give an understanding of the strengths and weaknesses of this class of smart materials, how relevant photophysical parameters are measured and influence system performance and comment on the pitfalls in experimental evaluation of materials. A numerical population model in combination with simple physical formulas is used to demonstrate system behavior from a performance standpoint. Geometrical reasoning shows the advantage of reverse saturable absorption over nonlinear scattering due to a fraction of scattered light being recollected by imaging system optics. The numerical population model illustrates the importance of the optical power limiting performance during the leading edge of a nanosecond pulse, which is most strongly influenced by changes in the two-photon absorption cross section and the triplet linear absorption cross section for a modeled Pt-acetylide. This tutorial not only targets optical engineers evaluating reverse saturable absorbing materials but also aims to assist researchers with a chemistry background working on optical power limiting materials. We also present photophysical data for a series of coumarins that can be useful for the determination of quantum yields and two-photon cross sections and show examples of characterization of molecules with excited triplet states.en_GB
dc.language.isoenen_GB
dc.subjectTermSet Emneord::Optiske egenskaper
dc.subjectTermSet Emneord::Laserstråler
dc.subjectTermSet Emneord::Absorpsjon
dc.titleHow to assess good candidate molecules for self-activated optical power limitingen_GB
dc.typeArticleen_GB
dc.date.updated2018-04-19T12:41:45Z
dc.identifier.cristinID1577203
dc.identifier.cristinID1577203
dc.identifier.doi10.1117/1.OE.57.3.030802
dc.source.issn0091-3286
dc.source.issn1560-2303
dc.type.documentJournal article
dc.relation.journalOptical Engineering: The Journal of SPIE


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