Theory and FDTD simulations of an amorphous silicon planar waveguide structure suitable to be used as a surface plasmon resonance biosensor | Zendy

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Theory and FDTD simulations of an amorphous silicon planar waveguide structure suitable to be used as a surface plasmon resonance biosensor

Author(s) -

Alessandro Fantoni,

João Costa,

Miguel Fernandes,

Yuri Vygranenko,

Manuela Vieira

Publication year - 2020

Publication title -

optica pura y aplicada/óptica pura y aplicada

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.147

H-Index - 11

eISSN - 2171-8814

pISSN - 0030-3917

DOI - 10.7149/opa.53.2.51032

Subject(s) - biosensor , finite difference time domain method , surface plasmon resonance , materials science , planar , silicon , waveguide , amorphous silicon , resonance (particle physics) , amorphous solid , surface plasmon , optoelectronics , plasmon , localized surface plasmon , nanotechnology , optics , nanoparticle , chemistry , physics , computer science , crystalline silicon , atomic physics , crystallography , computer graphics (images)

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