Events

Events

List is filtered with:

reset filter
Group seminar via Zoom: Exploring many-body quantum dynamics with magnetic resonance in solids

Diep Nguyen, Nagoya University; Japan
In this talk, I will first introduce the nuclear magnetic resonance (NMR) technique to explore many-body quantum states in condensed matter, by utilizing the local probe of NMR static and dynamical observables. more

Group Seminar at LMU: Quantum simulation in the eight-fold optical quasicrystal lattice

David Gröters, University of Cambridge, UK
Quasicrystals constitute a unique class of materials that exhibit rotational symmetries that are forbidden in typical periodic latices. This leads to a crystal structure which is not periodic yet longrange ordered and thus commonly referred to as quasidisordered. Disordered systems are known to host ... more

Group Seminar at LMU: Real-time atom array control

Pedro Sales Rodriguez, MIT, Cambridge, MA, USA
Tweezer arrays give unique individual control of atoms and their internal states. As these experiments grow in complexity, so does the need for real-time control and integration with classical resources. more

Group Seminar via Zoom: Single Atom Preparation in Strontium Tweezer Arrays

Kevin Wang, Columbia University, New York, USA
I present the development of an experimental platform for trapping neutral strontium atoms in optical tweezer arrays generated by holographic metasurfaces. In contrast to conventional bulk optics, metasurfaces offer an exciting new avenue more

Group seminar at MPQ and Zoom: Generating spin squeezing and GHZ states with Rydberg interactions in a neutral-atom optical-clock platform

William Eckner, JILA, UCB, Colorado, USA
Programmable arrays of neutral atoms trapped in optical tweezers and lattices have emerged as a powerful tool for studies of competitive optical atomic clocks, as well as the generation of entangled quantum states with the use of Rydberg interactions and methods from both analog quantum simulation and digital quantum information processing. more

Group seminar at MPQ and Zoom: The tin-vacancy centre in diamond as a quantum network node at 4 K

Alexander Stramma, University of Cambridge, England, United Kingdom
Optically interfaced solid-state spins are amongst the most promising candidates for quantum networking devices, combining an efficient spin-photon interface with a local nuclear quantum register. more

Group seminar at LMU: Using ultracold atoms as quantum simulators for open systems

Prof. André Eckardt, TU Berlin
Ultracold atomic quantum gases are famous for their high degree of isolation from the environment. This makes them an ideal platform for studying, e.g., coherent quantum many-body dynamics. I will argue that it can, however, also be interesting to augment these systems ... more

Show more
Go to Editor View