Vacuum Coating Technology For Optical Data Storage Media
Identifieur interne : 000918 ( Main/Exploration ); précédent : 000917; suivant : 000919Vacuum Coating Technology For Optical Data Storage Media
Auteurs : Bernhard Cord [Allemagne] ; Michael Mücke [Allemagne] ; Eggo Sichmann [Allemagne]Source :
- Vakuum in Forschung und Praxis [ 0947-076X ] ; 2006-04.
English descriptors
- Teeft :
- Approx, Bernhard cord, Cathode technology, Coating process, Cycle times, Data disc, Dielectric layers, Disc, Disc coating, Disc formats, Disc halves, Disc radius, First generation, Gmbh, Group leader, Information layer, Injection molding, Injection molding technology, Kgaa, Laser, Laser light, Layer, Layer distribution, Layer homogeneity, Layer stack, Layer stacks, Layer thickness distribution, Magnetron, Multilayer systems, Negative polarity, Optical data storage media, Optical discs, Permanent magnets, Phase change, Phase change layer, Polycarbonate disc, Recording properties, Reflective layer, Reflectivity, Replication line, Rewritable, Silver layer, Smart magnetron, Sputtering, Sputtering process, Storage layer, Storage media, Substrate carriers, Target erosion pattern, Target surface, Target utilization, Thick discs, Thickness distribution, Vacuum coating systems, Vacuum coating technology, Vacuum technology, Verlag, Verlag gmbh, Weinheim.
Abstract
The manufacture of optical data storage media like CD and DVD has grown into a highly specialized large‐scale industrial production. The following is a retrospective of developments in coating and system technology over the past 20 years. System reliability, stable processes and fast machine cycle times are key elements for efficient replication. Vacuum coating technology in particular contributes to a product‐optimized process. Multilayer systems and the shift to blue laser recording in emerging formats serve to further increase disc storage capacity.
Url:
DOI: 10.1002/vipr.200690029
Affiliations:
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halves</term><term>Disc radius</term><term>First generation</term><term>Gmbh</term><term>Group leader</term><term>Information layer</term><term>Injection molding</term><term>Injection molding technology</term><term>Kgaa</term><term>Laser</term><term>Laser light</term><term>Layer</term><term>Layer distribution</term><term>Layer homogeneity</term><term>Layer stack</term><term>Layer stacks</term><term>Layer thickness distribution</term><term>Magnetron</term><term>Multilayer systems</term><term>Negative polarity</term><term>Optical data storage media</term><term>Optical discs</term><term>Permanent magnets</term><term>Phase change</term><term>Phase change layer</term><term>Polycarbonate disc</term><term>Recording properties</term><term>Reflective layer</term><term>Reflectivity</term><term>Replication line</term><term>Rewritable</term><term>Silver layer</term><term>Smart magnetron</term><term>Sputtering</term><term>Sputtering process</term><term>Storage layer</term><term>Storage media</term><term>Substrate carriers</term><term>Target erosion pattern</term><term>Target surface</term><term>Target utilization</term><term>Thick discs</term><term>Thickness distribution</term><term>Vacuum coating systems</term><term>Vacuum coating technology</term><term>Vacuum technology</term><term>Verlag</term><term>Verlag gmbh</term><term>Weinheim</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">The manufacture of optical data storage media like CD and DVD has grown into a highly specialized large‐scale industrial production. The following is a retrospective of developments in coating and system technology over the past 20 years. System reliability, stable processes and fast machine cycle times are key elements for efficient replication. Vacuum coating technology in particular contributes to a product‐optimized process. 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