Zhigang Jiang received his B.S. in physics in 1999 from Beijing University and his Ph.D. in 2005 from Northwestern University. He was also a postdoctoral research associate at Columbia University jointly with Princeton University and NHMFL from 2005 till 2008. Jiang is interested in the quantum transport and infrared optical properties of low dimensional condensed matter systems. The current ongoing projects include: (1) infrared spectroscopy study of graphene and topological insulators, (2) spin transport in graphene devices, and (3) Andreev reflection spectroscopy of candidate topological superconductors.

Professor John Wise uses numerical simulations to study the formation and evolution of galaxies and their black holes. He is one of the lead developers of the community-driven, open-source astrophysics code Enzo and has vast experience running state-of-the-art simulations on the world’s largest supercomputers. He received his B.S. in Physics from the Georgia Institute of Technology in 2001. He then studied at Stanford University, where he received his Ph.D. in Physics in 2007. He went on to work at NASA’s Goddard Space Flight Center just outside of Washington, DC as a NASA Postdoctoral Fellow. Then in 2009, he was awarded the prestigious Hubble Fellowship which he took to Princeton University before arriving at Georgia Tech in 2011, coming back home after ten years roaming the nation.

I'm an Associate Professor of Biogeochemistry in the School of Earth & Atmospheric Sciences at the Georgia Institute of Technology. 

My research explores the ways in which Earth's biosphere and planetary boundary conditions act to reshape ocean/atmosphere chemistry and climate, how these interactions have evolved over time, and how they might be engineered moving forward. The work I do is inherently interdisciplinary, and utilizes an ensemble of tools including computer models of ocean, sediment, and soil biogeochemistry, stable isotope and trace element tracers, and analysis of modern natural systems.

Alex Oettl joined Scheller in 2009.  His research interests include the economics of innovation, knowledge spillovers, labor mobility, and economic geography.  His current work focuses on the production and diffusion of ideas at the individual, firm, and regional level.

Professor Oettl's research has been published in Management Science, Organization Science, Nature, Journal of Financial Economics, Review of Economics and Statistics, Proceedings of the National Academy of Sciences (PNAS), Journal of Urban Economics, Research Policy, Journal of International Business Studies, profiled in multiple media outlets, and presented at business schools around the world. He is a Research Associate at the National Bureau of Economic Research and a recipient of the Kauffman Junior Faculty Fellowship in Entrepreneurship Research.

Dr. Walker's primary research interests lie in electric propulsion, plasma physics, and hypersonic aerodynamics/plasma interaction. He has extensive design and testing experience with Hall thrusters and ion engines. Dr. Walker has performed seminal work in Hall thruster clustering, vacuum chamber facility effects, plasma-material interactions, and electron emission from carbon nanotubes. His current research activities involve both theoretical and experimental work in advanced spacecraft propulsion systems, diagnostics (including THz time-domain spectroscopy and Thomson scattering), plasma physics, helicon plasma sources, magnetoplasmadynamic thrusters, and pulsed inductive thrusters. Dr. Walker also teaches the undergraduate Jet & Rocket Propulsion course, as well as the graduate level Rocket Propulsion, Electric Propulsion, and Gasdynamics courses.

Our group is primarily a surface chemistry and physics group which focuses on the use of high-powered pulsed lasers, low-energy electron scattering, micro-plasmas, mass spectrometry and ultrahigh vacuum surface science techniques. We use this "tool-set" as well as some scattering theory to unravel the details of non-thermal processes occurring under a variety of non-equilibrium conditions. Our group is based upon an interdisciplinary approach and thus our research programs span the realm of fundamental investigations in molecular physics, surface physics and chemistry, bio-physics, bio-polymer formation under pre-biotic conditions as well as working in applied areas of relevance to analytical technique developments, atmospheric chemistry, catalysis and molecular hydrogen generation.

Matthew McDowell joined Georgia Tech in the fall of 2015 as an assistant professor with a joint appointment in the George W. Woodruff School of Mechanical Engineering and the School of Materials Science and Engineering. Prior to this appointment, he was a postdoctoral scholar in the Division of Chemistry and Chemical Engineering at the California Institute of Technology. McDowell received his Ph.D. in 2013 from the Department of Materials Science and Engineering at Stanford University.

McDowell’s research group focuses on understanding how materials for energy and electronic devices change and transform during operation, and how these transformations impact properties. The group uses in situ experimental techniques to probe materials transformations under realistic conditions. The fundamental scientific advances made by the group guide the engineering of materials for breakthrough new devices. Current projects in the group are focused on i) electrode materials for alkali ion batteries, ii) materials for solid-state batteries, iii) interfaces in chalcogenide materials for electronics and catalysis, and iv) new methods for creating nanostructured metals.

Dr. Koki Ho is the Dutton-Ducoffe Professor, an Associate Professor, and the director of the Space Systems Optimization Group in the Daniel Guggenheim School of Aerospace Engineering at Georgia Tech. His research focuses on developing modeling and optimization methods for rigorous space mission analysis and design. Some of his specific research interests include (1) network modeling for campaign-level space mission design; (2) optimization and probabilistic modeling for in-space logistics infrastructure design and operations; (3) design, deployment, and maintenance of mega-scale satellite constellations; and (4) sensor management for space domain awareness. His unique research connecting logistics-based modeling, optimization, systems engineering, and space applications has provided a substantial impact on modern and future space missions that involve multiple missions, multiple vehicles, and reusable infrastructure elements. Dr. Ho earned his Ph.D. at MIT and his bachelor’s and master’s degrees at the University of Tokyo. He is the recipient of the NSF CAREER Award (2020), the NASA Early Career Faculty Award (2019), the DARPA Young Faculty Award (2019), and the Luigi Napolitano Award (2015), and he is a co-author of one of the most downloaded Acta Astronautica articles. Dr. Ho served as the Chair of the AIAA Space Logistics Technical Committee in 2017-2024 and currently serves on the Steering Committee for the NASA-funded Consortium for Space Mobility and In-Space Servicing, Assembly, and Manufacturing Capabilities (COSMIC).

Education

• B.Eng., Aeronautics and Astronautics, 2009, University of Tokyo;
• M.Eng., Aeronautics and Astronautics, 2011, University of Tokyo;
• Ph.D., Aeronautics and Astronautics, 2015, Massachusetts Institute of Technology

Distinctions & Awards

Honors:

• 2020 NSF CAREER Award
• 2019 DARPA Young Faculty Award
• 2019 NASA Early Career Faculty Award
• 2015 Luigi Napolitano Award

Dr. Matthew Gombolay is an associate professor of Interactive Computing at the Georgia Institute of Technology. He received a B.S. in Mechanical Engineering from the Johns Hopkins University in 2011, a S.M. in Aeronautics and Astronautics from MIT in 2013, and a Ph.D. in Autonomous Systems from MIT in 2017. Gombolay's research interests span robotics, AI/ML, human-robot interaction, and operations research. Between defending his dissertation and joining the faculty at Georgia Tech, Gombolay served as a technical staff member at MIT's Lincoln Laboratory transitioning his research for the U.S. Navy, earning him an R&D 100 Award for his development of "Human-Machine Collaborative Optimization via Apprenticeship Scheduling" (COVAS). His publication record includes a best paper award from American Institute for Aeronautics and Astronautics, and he was selected as a DARPA Riser in 2018. Dr. Gombolay's research has been highlighted in media outlets such as CNN, PBS, NBC, CBS, Harvard Business Review, Gizmodo, and national public radio