Measuring transverse transport coefficients using torque magnetometry
Thermal transport in strongly correlated bad metals
Time reversal symmetry breaking in unconventional superconductors
Quantum metallic states with bose character in two dimensional disordered superconductors
The nature of the phases proximate to the superconducor-insulator transition in two dimensions
Photogalvanic effects in Weyl semimetals and correlated electron systems
"Short range gravity" and possible deviations from Newton's 1/R2 law at microns distances
Search for Axions in the coupling range of 109 GeV < fa < 1011 GeV as a possible solution for the strong CP problem.
Current Research Directions:
CONDENSED MATTER PHYSICS & QUANTUM PLATFORMS:
We study Quantum Materials with novel electronic states at low temperatures.
Reality leaves a lot to the imagination.
- John Lennon
Ted@100
An event we only celebrate once every 100 years!
See: https://glam.stanford.edu/geballe100/overview
Past Events:
A conference to celebrate our group:
https://glam.stanford.edu/aharonfest
-- MORE NEWS
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