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Integrated Photonics and Plasmonics - Nonlinear Plasmonics
This thesis provides an opportunity to gain knowledge and experience in nonlinear optics, integrated photonics and plasmonics. You will have the opportunity to work with advanced simulation to get experience in fabrication and characterization of integrated plasmonic devices.
Guiding light at metal interfaces allows for smaller, faster and more efficient integrated optical circuits. The circuits could be used for next generation optical communication systems as well as integrated sensor applications.
Guiding light at metal interfaces allows for smaller, faster and more efficient integrated optical circuits. The circuits could be used for next generation optical communication systems as well as integrated sensor applications.
We develop new integrated devices to generate, manipulate, and process light on a silicon chip. In this work we will investigate new materials and devices for smaller and more efficient integrated optical devices.
This thesis provides an opportunity to gain knowledge and experience in nonlinear optics, integrated photonics and plasmonics. You will have the opportunity to work with advanced simulations, to get experience in fabrication, and characterization of integrated plasmonic devices.
We develop new integrated devices to generate, manipulate, and process light on a silicon chip. In this work we will investigate new materials and devices for smaller and more efficient integrated optical devices.
This thesis provides an opportunity to gain knowledge and experience in nonlinear optics, integrated photonics and plasmonics. You will have the opportunity to work with advanced simulations, to get experience in fabrication, and characterization of integrated plasmonic devices.
Plasmonic slot waveguide: The metal-insulator-metal plasmonic waveguides are fabricated in the ETH/IBM shared cleanroom. We fill the slots with a nonlinear optical material. Plasmonics leads to high optical which allow for strong nonlinear optical effects in the waveguide
Plasmonic slot waveguide: The metal-insulator-metal plasmonic waveguides are fabricated in the ETH/IBM shared cleanroom. We fill the slots with a nonlinear optical material. Plasmonics leads to high optical which allow for strong nonlinear optical effects in the waveguide
Simulation or experimental (fabrication, characterization). The type of work can be adjusted according to your interests.
Simulation or experimental (fabrication, characterization). The type of work can be adjusted according to your interests.
Interest in integrated photonic devices, materials, motivated to work on new technologies and to bring in own ideas.
ETH Zurich
Wolfgang Heni ETZ K 93
Prof. Dr. Jürg Leuthold, ETZ K 81
Gloriastrasse 35
8092 Zurich
Phone: +41 44 632 6963
Email: wheni@ethz.ch