We believe in the importance of open science and reproducibility.
Below, you will find a collection of open-source libraries, simulation tools, and codebases developed by our group members to support our research across different fields.
Focused on the intersection of electron microscopy and nanophononics, this group hosts the PINET project and other tools for reconstructing electromagnetic near-fields. These resources support our research in Deep Subwavelength Ultrafast Imaging, enabling the tomographic reconstruction of photonic and polaritonic fields using novel electron-matter interaction schemes.
This repository hosts our codebases dedicated to quantum information theory and simulation. It currently features tools for studying symmetric states and superradiance, including simulations for spin squeezing and coherent rotation. Researchers can find resources here for modeling many-body quantum systems and exploring the generation of non-classical states of light and matter.
Our hub for quantum algorithmic research and development.
Focused on the intersection of electron microscopy and nanophononics, this group hosts the PINET project and other tools for reconstructing electromagnetic near-fields. These resources support our research in Deep Subwavelength Ultrafast Imaging, enabling the tomographic reconstruction of photonic and polaritonic fields using novel electron-matter interaction schemes.
Focused on the optimization of nanostructures to control X-ray emission and the scintillation process.