Research Areas
Our research is driven by the attempt to combine theoretical microscopic models with novel experimental measurement methods
01
Nonlinear Optics and Imaging
A common method to create an efficient optical frequency conversion process is the use of non-linear crystals fabricated with a sign-alternating polarization pattern. Explore Area >>
02
Ultrafast Optical Metamaterials
In recent years, optical metamaterials have witnessed exponential interest and research activities stemming from the ability to design at will their optical response.
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03
Nonlinear Metamaterials
The ability to tailor the electromagnetic response of matter by subwavelength nano-structures introduces new regimes of light-matter interaction, such as negative and zero refractive index materials.
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04
Extreme Ultrafast Physics
In the past two decades, the generation of significant nonlinear optical response from plasmonic nanostructures has initiated new fronts across many fields in science, including nonlinear optics.
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05
Quantum Coherent Control
This field addresses the question of how to steer a quantum system from one state to another in an efficient manner, that is robust to systematic errors.
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06
Near Field Optics
Our lab is home to one of the only apertureless near-field scanning optical microscopes in the country, allowing for experiments with deep-subwavelength spatial resolution at ambient pressure and temperature. Explore Area >>
07
Broadband Image Upconversion
This is your Project description.
08
Machine Learning for Photonics
In this work we present an integrated Deep Learning approach to the inverse design of plasmonics particles problem and show how deep neural networks (DNNs) can streamline the design process.
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09
New Space and Nano-Satellites
Nano satellites are becoming a major player in the evolving world of space technology. They are not only used for research purposes, but also for commercial applications. Explore Area >>
