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Senior scientist
Condensed Matter Theory Group >>
Building/Room: WHGA/136
Newly discovered rapid particle growth rates may be the answer to the mystery of aerosol formation in urban smog
Aerosols, suspended particles or droplets, play a key role in Earth’s atmosphere’s energy balance. They can also result in smog formation in cities, which leads to low visibility and serious health risks for the population. A recent study published in Nature outlines a newly discovered mechanism that may play a key role in the continued survival of particles in wintertime smog.
Research Committee
Prof. Dr. Marco Stampanoni (President) Photon Science Division (PSD) Dr. Knud Thomsen (Secretary) Research with Neutrons and Muons (NUM) Dr. Thomas Huthwelker Photon Science Division (PSD) Prof. Thomas Lippert Research with Neutrons and Muons (NUM) Dr. Andreas Menzel Photon Science Division (PSD) Dr. Christopher Mudry Research with Neutrons and Muons (NUM) Dr. Cristina Müller Biology and Chemistry (BIO) Dr. Bojan Niceno Nuclear Energy and Safety (NES) Prof. Christof Niedermayer
Computational Physics Group
Our group is interested in the theoretical and computational exploration of correlated quantum matter in condensed matter and AMO systems. We strive to understand novel phases of matter, quantum critical phenomena and quantum systems out of equilibrium. Our research builds on a blend of concepts and ideas from condensed matter theory, statistical mechanics, quantum field theory and quantum information. We also develop and implement innovative computational algorithms in order to perform large-scale computer simulations on high-performance computers.
Publications
Theoretical and Computational Physics (LTC)