Working in an area of Oak Ridge National Lab nicknamed Neutrino Alley, the research team typically focuses on subatomic particles called neutrinos.
Understanding the interactions between plants and microorganisms may help develop practices that can increase crop productivity and resilience.
Research by Joshua Klein of the School of Arts & Science and an international team has found a way to detect distant subatomic particles using water.
Physicists from around the world gathered to discuss a new kind of experiment and give concrete recommendations on the future of high energy physics.
The researchers completed sequencing 24 new mushroom genomes from Asia, Australasia, & the Americas, and assembled genomes from 60 existing sequences.
Boyd studies a group of unique microorganisms, focusing on their ability to extract iron, sulfur, and other trace elements from the mineral pyrite.
Professor Stefan Bathe leads a team that will study subatomic particles from plasma that existed at the start of the universe.
Funding will help develop sustainable alternatives to gasoline, diesel and other hydrocarbon fuels as well as products currently made from petroleum.
A CABBI team designed a process that simultaneously treats wastewater and recovers biogas energy that could generate revenue for biorefineries.
The interdisciplinary project merges nuclear theory with quantum theoretical and experimental physics.