Ferenc Krausz Awarded Wolf Prize for Contributions to Laser Physics

Professor Ferenc Krausz has been awarded the 2022 Wolf Prize in Physics “for groundbreaking contributions to ultrafast laser science and attosecond physics.” The Hungarian-Austrian physicist’s contributions to the industry have additional formulated the analyze of attosecond physics and its software to elementary physics. The two other laureates of the physics prize are Anne L’huillier from Lund University and Paul Corkum from the College of Ottawa.

Ferenc Krausz, collectively with his investigation crew at the Max Planck Institute of Quantum Optics, was the to start with to create and measure attosecond gentle pulses and to then use them to capture electron movement within atoms. They contributed to the generation of few-cycle laser pulses, and have analyzed numerous atomic and molecular physics procedures.

Krausz and his workforce use femtosecond and attosecond know-how to acquire the application of infrared spectroscopy to biomedical sciences. By analyzing variations in the composition of blood samples, the team aims to discover regardless of whether new diseases can be diagnosed in their original levels.

Krausz is an external member of the Hungarian Academy of Science. Born and raised in the town of Mór, in northwestern Hungary, he graduated with a degree in physics at Eötvös Loránd University’s College of Science, as well as a certification in electrical engineering from the Budapest College of Technology and Economics in 1985. He then started his analysis of laser physics at the University of Technological know-how under the tutelage of József Bakos, and graduated with a Ph.D. from the Vienna College of Know-how in 1991.

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Krausz has very long been interested in the study of subatomic particles applying femtosecond know-how, a passion that has guided his job to the achievement he now sees. He was appointed as a Director at the Max Planck Institute of Quantum Optics in 2003, and has been Chair of Experimental Phsyics at the Ludwig Maximilian University of Munich given that 2004. His team has been generating historical past ever due to the fact they were being the first to produce and measure attosecond mild pulses at the starting of the 2000s.

Showcased photograph illustration by Attila Kovács/MTI