Collaboration on Rydberg Interactions
In collaboration with Atom Computing, we have made significant progress in understanding Rydberg interactions of divalent atoms.
Circular Rydberg qubit talks to its ionic core
In the CiRQus project, we have implemented laser-controlled interactions between a highly-excited circular Rydberg qubit and a second ionic core electron …
Research internship In the Quantum Länd
Philéas Thibault, master student in physics at the École Normale Supérieure Paris-Saclay, has spent three months in our research group for a research internship on neutral atom quantum computing …
Christian has successfully defended his dissertation!
Christian Hölzl has successfully defended his doctoral thesis entitled “Realization of Alkaline-Earth Circular Rydberg Qubits in Optical Tweezer Arrays” …
Learning how to program a quantum computer at Girl’sDay 2024
Today, at Girl’sDay 2024, a group of girls between grades eight and ten visited the Institute for Theoretical Physics III to learn how to program a quantum computer …
Patent application filed for promising building blocks for quantum computer technology
‘The Quantum Länd’ team has filed a patent application for a whole set of important building blocks for future quantum computers, including a method for special optical tweezers for individual atoms, a vacuum-compatible electric field control and a novel concept for the realization of a fast qubit.
Improved interactive quantum circuit simulator
The newest version of the interactive quantum circuit simulator is now available! …
ATOMIQ – Our Convenience Layer for ARTIQ now available
Together with colleagues from the University of Kaiserslautern, we have developed the open source convenience layer ATOMIQ for the experiment control environment ARTIQ …
Circular Rydberg Qubit of an Alkaline-Earth Atom
In the CiRQus project, we have demonstrated the first trapped circular Rydberg atoms of Strontium …
New Fine-Structure Qubit demonstrated
In our recent experiments, we have realized a novel neutral atom qubit encoded in two metastable fine-structure states …