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  • Broschiertes Buch

Multiplexed optical recording provides an unparalleled approach to increase the information density beyond 1 Tbits/cm^3 by storing multiple, individually addressable patterns within the same recording volume. Although wavelength, polarization, and spatial dimensions have all been exploited for multiplexing, these approaches have never been integrated into a single technique which could ultimately increase the information capacity by orders of magnitude. The major hurdle is the lack of a suitable recording medium which is extremely selective in the wavelength, the polarization and the three…mehr

Produktbeschreibung
Multiplexed optical recording provides an unparalleled approach to increase the information density beyond 1 Tbits/cm^3 by storing multiple, individually addressable patterns within the same recording volume. Although wavelength, polarization, and spatial dimensions have all been exploited for multiplexing, these approaches have never been integrated into a single technique which could ultimately increase the information capacity by orders of magnitude. The major hurdle is the lack of a suitable recording medium which is extremely selective in the wavelength, the polarization and the three spatial domains to provide orthogonality in all five dimensions. In this book we present a recording medium that supports such ve-dimensional optical recording by exploiting the unique photothermal properties of the longitudinal surface plasmon resonance of gold nanorods.
Autorenporträt
Peter Zijlstra received his PhD in 2009 from Swinburne University of Technology in Australia, working on spectroscopy of single gold nanoparticles and their application to optical recording. He currently holds a postdoctoral position in the group Molecular NanoOptics and Spins at Leiden University in The Netherlands.