Milán Mosonyi is an Associate Professor at the Department of Analysis of the Budapest University of Technology and Economics, and the Head of the MTA-BME Lendület Quantum Information Theory Research Group. He is also the PI of multiple OTKA research grants, as well as a former recepient of the Bolyai fellowship of the Hungarian Academy of Sciences, and of the Marie Curie fellowship of the European Commission. He worked as a researcher at various prestigious universities (Tohoku University, National University of Singapore, University of Bristol, Universitat Autonoma de Barcelona, Technische Universität München). His main field of interest is quantum information theory, and he has obtained fundamental results in the problems of quantum state discrimination and classical-quantum channel coding.  

Selected publications:

Strong converse exponent for classical-quantum channel coding
Milán Mosonyi, Tomohiro Ogawa
Communications in Mathematical Physics, 355(1), pp. 373-426, (2017)

Quantum hypothesis testing and the operational interpretation of the quantum Rényi relative entropies
M. Mosonyi, T. Ogawa
Communications in Mathematical Physics, Volume 334, Issue 3, pp. 1617-1648, (2015)

Coding theorems for compound problems via quantum Rényi divergences
M. Mosonyi
IEEE Transactions on Information Theory, vol. 61, issue 6, pp. 2997-3012, (2015)

On the quantum Rényi relative entropies and related capacity formulas
M. Mosonyi, F. Hiai
IEEE Trans. Inf. Theory, 57, pp. 2474 2487, (2011)