Todd Gingrich, Ph.D.

Todd Gingrich, Ph.D.

Physics of Living Systems Fellow at MIT
Education: Caltech, UC Berkeley, Oxford, MIT
2007 Amgen Scholar

“Though people often think of science through the lens of applied technologies, the groundwork is typically laid by application-agnostic basic scientific research. Today’s fundamental discoveries tend to open up tomorrow’s technological possibilities.”

Through his Rhodes Scholarship and multiple research opportunities, Todd Gingrich’s studies have taken him across the U.S. from coast to coast and to Europe – far from where he was raised in Columbia, MO. Upon completion of his Ph.D. in chemistry in 2015 at UC Berkeley, he traveled back east to become a Physics of Living Systems Fellow at MIT. Todd was a Hertz Foundation Fellowship recipient while at UC Berkeley, and his work on large deviations and dynamics phase transitions appeared in a number of scientific journals including Physical Review Letters, The Journal of Chemical Physics and the New Journal of Physics. Upon completion of his postdoctoral fellowship at MIT, he plans to secure a position as an assistant professor at a leading research institution where he can help not only train the scientists of tomorrow, but further his own research in the process.


More from Todd Gingrich, Ph.D.:

“My focus is on theoretical chemistry, specifically a discipline called statistical mechanics and thermodynamics. I seek to use mathematical and computational models to develop greater understanding of how molecular motions are affected under non-equilibrium conditions.

I’m inspired by the sense of adventure that comes from exploring the unknown. Once upon a time people sought that adventure by exploring and mapping out hidden corners of the world. While the age of explorers is over, there are still so many scientific mysteries to explore.

It’s interesting to see the greater accessibility to scientific research. Hundreds of years ago, people could only really pursue scientific inquiry if they came from a wealthy family. Today, many more people are able to earn a living by performing and analyzing experiments. The huge expansion of the scientific workforce accelerates basic science research, which ultimately can yield faster technological progress—better drug development, smaller computers, more useful robotics, etc.

The research opportunities as an Amgen Scholar were crucial to my scientific career. In the sciences there is a huge jump from the coursework-driven undergraduate experience to the research-driven graduate experience. During my summer as an Amgen Scholar I spent quality time in a world-class research environment, something which drove me to pursue it as a career.”

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