Add to ORKGDoped semiconductors are investigated as a foundation for plasmonic waveguides and gratings in the mid-infrared. The potential applications of plasmonics to the MIR are reviewed, along with a brief derivation of a mathematical formalism for hybrid plasmonic waveguides which utilize both doped semiconductors and noble metals. A COMSOL Multiphysics model for these waveguides is demonstrated, with a high degree of automation. In addition, I demonstrate lateral control of carrier concentration in doped silicon, by patterning commercially available spin-on dopants down to the subwavelength scale. Samples are characterized by Fourier transform infrared spectroscopy and microscopy, surface profilometry, and infrared emissivity measurements. Sample...
International audienceThe use of heavily doped semiconductors to achieve plasma frequencies in the m...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
This thesis demonstrates the use of the MIT Electromagnetic Equation Propagation (MEEP) software pac...
Highly doped semiconductors are ideal materials to realize plasmonic and metamaterial based systems ...
The significant scattering loss in noble metals has been recognized as a major limiting factor in th...
In the past decade or two, the field of nanophotonics has seen rapid development, empowered by intro...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
International audienceThe use of heavily doped semiconductors to achieve plasma frequencies in the m...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
This thesis demonstrates the use of the MIT Electromagnetic Equation Propagation (MEEP) software pac...
Highly doped semiconductors are ideal materials to realize plasmonic and metamaterial based systems ...
The significant scattering loss in noble metals has been recognized as a major limiting factor in th...
In the past decade or two, the field of nanophotonics has seen rapid development, empowered by intro...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...
International audienceThe use of heavily doped semiconductors to achieve plasma frequencies in the m...
Highly doped semiconductors (HDSCs) are promising candidates for plasmonic applications in the mid-i...
Despite the recent introduction of heavily doped semiconductors for mid-infrared plasmonics, it stil...