Suppressing crosstalk for Rydberg quantum gates
In our new publication, we develop a method to suppress crosstalk from implementing controlled-Z gates via local addressing in neutral atom quantum computers.
In our new publication, we develop a method to suppress crosstalk from implementing controlled-Z gates via local addressing in neutral atom quantum computers.
We are very happy to announce that our benchmarking consortium BeRyQC is now funded by the German Federal Ministry of Education and Research.
We are excited to invite you to a webinar that showcases our unified, modular quantum hardware orchestration platform atomiq on March 8th, 10am (CEST) …
The 837. WE-Heraeus-Seminar on ‘Quantum Science with Interacting Arrays of Rydberg Atoms and Molecules’ will take place in Bad Honnef July 27th – August 1st, 2025 …
Christian Hölzl was awarded second place in the ‘Quantum Future Award’ competition for his outstanding doctoral thesis …
The ability to perform quantum error correction is a fundamental requirement for fault tolerant quantum computing …
In collaboration with Atom Computing, we have made significant progress in understanding Rydberg interactions of divalent atoms.
In the CiRQus project, we have implemented laser-controlled interactions between a highly-excited circular Rydberg qubit and a second ionic core electron …
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 Hölzl has successfully defended his doctoral thesis entitled “Realization of Alkaline-Earth Circular Rydberg Qubits in Optical Tweezer Arrays” …