Awards and Recognition
for "pioneering studies of the electronic structure and the nematic and superconducting orders of iron-based superconductors, using quantum oscillations, photoemission, and other techniques". Recommended by the APS Division of Condensed Matter Physics (DCMP) the fellowship was awarded at the APS March meeting 2024 in Minneapolis.
for "pioneering studies of the electronic structure and electronic properties of iron-based superconductors. Soon after the discovery of this class of superconductors, Prof. Coldea was able to make precise models of the Fermi surface of these novel materials using a combination of quantum oscillation measurements, angle-resolved photoemission spectroscopy and bandstructure calculations. The accepted models for iron-based superconductivity are based on the Fermi surfaces and bandstructures verified by Prof. Coldea and her co-workers".
from ) "for outstanding contribution to the understanding of the electronic structure of iron-based superconductors by using high magnetic fields". The prize was awarded at the EuroMagnet II User Meeting in Toulouse.
Fellowships and Grants
EPSRC Career Acceleration Fellowship [ (EP/I004475/1, 2011-2020)
Emergent phenomena in novel correlated materials (拢1,171,400);
EPSRC Standard Funding for Interdisciplinary Research (EP/I017836/1, 2011-2019):
Frontiers in research of emergent materials (拢85,891);
INSPIRE Physical Sciences: A synergy for next generation materials science
(EP/K036408/1, 01/04/2013-30/09/2014).
This is a collaboration with O. Cespedes, DA MacLaren, G. Teobaldi, J. Bos (拢50,457)
Royal Society University Research Fellowship 2010
(offer declined in favour of the EPSRC CAF);
Royal Society Dorothy Hodgkin Fellowship (拢215,644.90, 2005-2011)
Unconventional Ground States and Spin Effects in Low鈥怐imensional Electronic Systems
Royal Society Research Grant (拢15,000, 2010)
Novel electronic materials probed using patterned microstructures;
Royal Society Research Grant (拢15,000, 2006);
Pressure: an essential tuning parameter in understanding phase competition in low dimensional organic superconductors