Thomas Haner from Microsoft ResearchQuantum computers promise to solve some computational tasks more efficiently than classical computers.

Rahul Trivedi (MPQ):For a continuous time model of spins on d-dimensional lattices with local interaction interrupted by entanglement breaking noise occurring as per poissonian process, I will show that a classical polynomial time algorithm can […]

With the help of high-resolution microscopy, scientists at MPQ successfully observed the transformation of a metal of magnetic polarons into a normal Fermi liquid. Furthermore, the team was able to measure novel correlations that could […]

Snir Gazit (Hebrew University)Orthogonal fermions present the simplest form of electronic fractionalization, where physical (gauge- neutral) electrons split into a local product of spinful fermions and Ising matter fields. 

Kristian Knakkergaard Nielsen (Aarhus University):In recent years, the quantum simulation [1] of the Fermi-Hubbard Hamiltonian [2] has made it possible to study the underlying physics of a vast class of strongly correlated materials [3].

Fabian Kugler, former doctoral student in the MPQ Theory Division, receives the Otto-Hahn Medal of the Max Planck Society. The award was established in 1978 and honours up to 30 young scientists per year for […]

Prof. Charles E. Creffield: The non-trivial zeros of the Riemann zeta function are central objects in number theory, and have also attracted the attention of physicists working in random matrix theory and quantum chaos for […]

Juan Ramón Muñoz de NovaWe propose the concept of a spontaneous many-body Floquet state.

Markus Schröfl & Tobi Haas (Heidelberg University)Entropic uncertainty is a well-known concept to formulate uncertainty relations for continuous variable quantum systems with finitely many degrees of freedom.

Jacob Biamonte (Skoltech)Determining properties of ground states of spin Hamiltonians remains a topic of central relevance connecting disciplines of mathematical, theoretical and applied physics.