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This significantly extended second edition addresses the important
physical phenomenon of Surface Plasmon Resonance (SPR) or Surface
Plasmon Polaritons (SPP) in thin metal films, a phenomenon which is
exploited in the design of a large variety of physico-chemical
optical sensors. In this treatment, crucial materials aspects for
design and optimization of SPR sensors are investigated and
described in detail. The text covers a selection of nanometer thin
metal films, ranging from free-electron to the platinum-type
conductors, along with their combination with a large variety of
dielectric substrate materials, and associated individual layer and
opto-geometric arrangements. Whereas the first edition treated
solely the metal-liquid interface, the SP-resonance conditions
considered here are expanded to cover the metal-gas interface in
the angular and wavelength interrogation modes, localized and
long-range SP's and the influence of native oxidic ad-layers in the
case of non-noble metals. Furthermore, a selection of metal grating
structures that allow SP excitation is presented, as are features
of radiative SP's. Finally, this treatise includes as-yet hardly
explored SPR features of selected metal-metal and metal-dielectric
superlattices. An in-depth multilayer Fresnel evaluation provides
the mathematical tool for this optical analysis, which otherwise
relies solely on experimentally determined electro-optical
materials parameters.
This significantly extended second edition addresses the important
physical phenomenon of Surface Plasmon Resonance (SPR) or Surface
Plasmon Polaritons (SPP) in thin metal films, a phenomenon which is
exploited in the design of a large variety of physico-chemical
optical sensors. In this treatment, crucial materials aspects for
design and optimization of SPR sensors are investigated and
described in detail. The text covers a selection of nanometer thin
metal films, ranging from free-electron to the platinum-type
conductors, along with their combination with a large variety of
dielectric substrate materials, and associated individual layer and
opto-geometric arrangements. Whereas the first edition treated
solely the metal-liquid interface, the SP-resonance conditions
considered here are expanded to cover the metal-gas interface in
the angular and wavelength interrogation modes, localized and
long-range SP's and the influence of native oxidic ad-layers in the
case of non-noble metals. Furthermore, a selection of metal grating
structures that allow SP excitation is presented, as are features
of radiative SP's. Finally, this treatise includes as-yet hardly
explored SPR features of selected metal-metal and metal-dielectric
superlattices. An in-depth multilayer Fresnel evaluation provides
the mathematical tool for this optical analysis, which otherwise
relies solely on experimentally determined electro-optical
materials parameters.
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