๐Education
Ph.D. Materials Science and Engineering, University of Arizona, 2015.๐Education
M.S. Materials Science and Engineering, University of Arizona, 2011.
B.S. Materials Engineering, San Jose State University, 2010.
Blog & Websites
๐Dirac's Student๐ Pluto Notebookย ๐ U. of A. Grad Site (archive)Blog & Websites
๐ง Contact
stefanbringuier@gmail.com๐ง Contact
This website is designed as a hub to showcase my research, projects, and scientific interests to a wider audience. It aims to feature content and links that reflect my scientific expertise and other areas of interest. I intend to share my ideas, scripts, and physics-based simulation codes on platforms like GitHub. Additionally, links to my write-ups, presentations, and blogs, which document my ongoing personal research and educational efforts, will be posted here.
This website is designed as a hub to showcase my research, projects, and scientific interests to a wider audience. It aims to feature content and links that reflect my scientific expertise and other areas of interest. I intend to share my ideas, scripts, and physics-based simulation codes on platforms like GitHub. Additionally, links to my write-ups, presentations, and blogs, which document my ongoing personal research and educational efforts, will be posted here.
๐งโ๐ฌ About Me & Interest
๐งโ๐ฌ About Me & Interest
I obtained all my degrees in materials science and engineering, and I am aย passionate scholar in the field. My scientific interest exists at the interfaces of materials science, computational methods, quantum computing/physics, machine learning, and robotics.ย
I obtained all my degrees in materials science and engineering, and I am aย passionate scholar in the field. My scientific interest exists at the interfaces of materials science, computational methods, quantum computing/physics, machine learning, and robotics.ย
One of my primary focuses is to support the characterization, discovery, and design of materials using approaches driven by computation, automation, and materials informatics. I'm also interested in materials engineering techniques for quantum hardware (e.g. qubits), and the application of quantum computing to chemistry and materials science problems. Multiferroic materials are another area that I'm extremely intrigued about because significant engineering is needed to improve coupling factors and temperature stability to make them technologically useful. Recently I've been dabbling in neuroscience and reading literature on neuromorphic materials. Thermodynamic computing is also on my radar!
One of my primary focuses is to support the characterization, discovery, and design of materials using approaches driven by computation, automation, and materials informatics. I'm also interested in materials engineering techniques for quantum hardware (e.g. qubits), and the application of quantum computing to chemistry and materials science problems. Multiferroic materials are another area that I'm extremely intrigued about because significant engineering is needed to improve coupling factors and temperature stability to make them technologically useful. Recently I've been dabbling in neuroscience and reading literature on neuromorphic materials. Thermodynamic computing is also on my radar!