E. Sijercic scite author profile

The possibility of constructing an optical sensor for temperature monitoring based on the Goos-Hänchen (GH) effect is explored using a theoretical model. This model considers the lateral shift of the incident beam upon reflection from a metal-dielectric interface, with the shift becoming a function of temperature due mainly to the temperature dependence of the optical properties of the metal. It is found that such a sensor can be most effective by using long wavelength p-polarized incident light at almost grazing incidence onto the metal, where significant variation of negative GH shifts can be observed as a function of the temperature.

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Simulation of InSb devices using drift–diffusion equations

Sijercic

Mueller

Pejčinović

2005

Solid-State Electronics

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Enhanced terahertz emission from quantum dot by graphene-coated nanoparticle

Sijercic

Leung

2018

Appl. Phys. B

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The Terahertz (THz) emission from quantum dots in close proximity to graphene coated nanoparticles is studied via phenomenological modeling with particular interest in the possibility of enhancement for such emission via the excitation of the graphene plasmons. It is shown that depending on various factors such as the damping factor and the Fermi level of the graphene, as well as the size and core material of the coated particle, such plasmonic enhanced THz emission is indeed possible. This thus opens up a new pathway to provide intense THz sources for future applications.

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Effects of surface charge on the anomalous light extinction from metallic nanoparticles

Sijercic

Leung

2016

Optics Communications

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E. Sijercic

Multigigahertz Causal Transmission Line Modeling Methodology Using a 3-D Hemispherical Surface Roughness Approach

Optical temperature sensing based on the Goos-Hänchen effect

Simulation of InSb devices using drift–diffusion equations

Enhanced terahertz emission from quantum dot by graphene-coated nanoparticle

Effects of surface charge on the anomalous light extinction from metallic nanoparticles

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