Ádám Gali, Doctor of Science of Physics of the Hungarian Academy of Sciences, professor, group leader of tenured “Lendület” Award group and currently the Frontier Award group. He has a decade experience in studying the solid state defect quantum bits and their potential applications in quantum sensing and quantum communication. He significantly contributed to identification of new quantum bits in technologically mature materials. As a guest researcher and guest professor he spent years at top universities (Harvard University, University of California - Davis, EPFL). He has participated in numerous European quantum technology consortia (FP7, H2020), and is a principal investigator in other domestic and international projects. He is a co-author in >270 peer-review papers with >6500 citations.
Selected publications:
Stabilization of point-defect spin qubits by quantum wells
V Ivády, J Davidsson, N Delegan, AL Falk, PV Klimov, SJ Whiteley, SO Hruszkewycz, MV Holt, FJ Heremans, N Tien Son, DD Awschalom, IA Abrikosov, A Gali
Nature Communications 10, 5607 (2019).
Ab Initio Magneto-Optical Spectrum of Group-IV Vacancy Color Centers in Diamond
Gergő Thiering and Adam Gali
Physical Review X 8, 021063 (2018).
Color centers in hexagonal boron nitride monolayers: A group theory and ab-initio analysis
Mehdi Abdi, Jyh-Pin Chou, Adam Gali, and Martin B. Plenio
ACS Photonics 5, 1967-1976 (2018).
A silicon carbide room-temperature single-photon source
S. Castelletto, B. C. Johnson, V. Ivády, N. Stavrias, T. Umeda, A. Gali, and T. Ohshima
Nature Materials 13, 151-156 (2014).
Ab initio supercell calculations on nitrogen-vacancy center in diamond: Electronic structure and hyperfine tensors
Adam Gali, Maria Fyta and Efthimios Kaxiras
Physical Review B 77, 155206 (2008).