Différences entre versions de « Substrate and Superstrate »
Sauter à la navigation
Sauter à la recherche
(Created page with "__HIDDENCAT__ = <font color="#D4650A">''' Concept Definition '''</font> = Substrate Material on which the ALU structure is laid. It is assumed to be infinitely thick. For DAL...") |
|||
| Ligne 1 : | Ligne 1 : | ||
__HIDDENCAT__ | __HIDDENCAT__ | ||
| − | = <font color="#D4650A">''' | + | = <font color="#D4650A">''' Substrate '''</font> = |
| − | |||
Material on which the ALU structure is laid. It is assumed to be infinitely thick. For DALHAI, it is defined by its refractive index (n1 in pyGDM), which is a number. Generally the substrate is made of glass, so n1=1.5. | Material on which the ALU structure is laid. It is assumed to be infinitely thick. For DALHAI, it is defined by its refractive index (n1 in pyGDM), which is a number. Generally the substrate is made of glass, so n1=1.5. | ||
| − | + | ||
| − | Superstrate | + | = <font color="#D4650A">'''Superstrate'''</font> = |
Semi-infinite medium in which the substrate + plasmonic structure are immersed. For DALHAI, it is simply defined by its refractive index (n2 in pyGDM), which is a number. Generally, the superstrate is air, so n2=1. | Semi-infinite medium in which the substrate + plasmonic structure are immersed. For DALHAI, it is simply defined by its refractive index (n2 in pyGDM), which is a number. Generally, the superstrate is air, so n2=1. | ||
| − | |||
| − | |||
| − | |||
[[Category:Glossary]][[Category:Plasmonic]] | [[Category:Glossary]][[Category:Plasmonic]] | ||
Version du 13 décembre 2021 à 16:49
Substrate
Material on which the ALU structure is laid. It is assumed to be infinitely thick. For DALHAI, it is defined by its refractive index (n1 in pyGDM), which is a number. Generally the substrate is made of glass, so n1=1.5.
Superstrate
Semi-infinite medium in which the substrate + plasmonic structure are immersed. For DALHAI, it is simply defined by its refractive index (n2 in pyGDM), which is a number. Generally, the superstrate is air, so n2=1.