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LEADER: 03528nam a22005055a 4500
001 014020939-5
005 20140620185824.0
008 140429s2014 gw | s ||0| 0|eng d
020 $a9783642540639
020 $a9783642540639
020 $a9783642540622
024 7 $a10.1007/978-3-642-54063-9$2doi
035 $a(Springer)9783642540639
040 $aSpringer
050 4 $aQC176.8.S8
050 4 $aQC611.6.S9
050 4 $aQC176.84.S93
072 7 $aPHFC$2bicssc
072 7 $aSCI077000$2bisacsh
082 04 $a530.417$223
100 1 $aStenzel, Olaf,$eauthor.
245 10 $aOptical Coatings :$bMaterial Aspects in Theory and Practice /$cby Olaf Stenzel.
264 1 $aBerlin, Heidelberg :$bSpringer Berlin Heidelberg :$bImprint: Springer,$c2014.
300 $aXXV, 378 p. 204 illus., 110 illus. in color.$bonline resource.
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
347 $atext file$bPDF$2rda
490 1 $aSpringer Series in Surface Sciences,$x0931-5195 ;$v54
505 0 $aBasics -- Experimental determination of thin film optical constants -- Remarks on available coating materials -- Material aspects of coating design (incl. computational manufacturing) -- High index oxide materials: Porous versus dense coatings -- Strongly porous low index materials -- Dielectric mixtures as coating materials (including applications in graded index coatings) -- Mixtures with metal inclusions -- Examples on coatings with a periodic surface structure -- Concluding remarks.
520 $aOptical coatings, i.e. multilayer stacks composed from a certain number of thin individual layers, are an essential part of any optical system necessary to tailor the properties of the optical surfaces. Hereby, the performance of any optical coating is defined by a well-balanced interplay between the properties of the individual coating materials and the geometrical parameters (such as film thickness) which define their arrangement. In all scientific books dealing with the performance of optical coatings, the main focus is on optimizing the geometrical coating parameters, particularly the number of individual layers and their thickness. At the same time, much less attention is paid to another degree of freedom in coating design, namely the possibility to tailor optical material properties to an optimum relevant for the required specification. This book, on the contrary, concentrates on the material aside of the problem. After a comprehensive review of the basics of thin film theory, traditional optical coating material properties and their relation to the efficiency of coating design methods, emphasis is placed on novel results concerning the application of material mixtures and nanostructured coatings in optical coating theory and practice, including porous layers, dielectric mixtures as well as metal island films for different applications.
650 10 $aPhysics.
650 0 $aSurfaces (Physics)
650 0 $aPhysics.
650 0 $aMicrowaves.
650 0 $aOptical materials.
650 24 $aSurface and Interface Science, Thin Films.
650 24 $aMicrowaves, RF and Optical Engineering.
650 24 $aOptical and Electronic Materials.
650 24 $aOptics, Optoelectronics, Plasmonics and Optical Devices.
650 24 $aSurfaces and Interfaces, Thin Films.
776 08 $iPrinted edition:$z9783642540622
830 0 $aSpringer Series in Surface Sciences ;$v54.
988 $a20140502
906 $0VEN