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.
Sebastian Weber
Project for benchmarking Rydberg quantum computers launched
We are very happy to announce that our benchmarking consortium BeRyQC is now funded by the German Federal Ministry of Education and Research.
Measurement-free, scalable and fault-tolerant universal quantum computing
The ability to perform quantum error correction is a fundamental requirement for fault tolerant quantum computing …
Collaboration on Rydberg Interactions
In collaboration with Atom Computing, we have made significant progress in understanding Rydberg interactions of divalent atoms.
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 …
Improved interactive quantum circuit simulator
The newest version of the interactive quantum circuit simulator is now available! …
Interactive quantum circuit simulator and tutorials
We are proud to announce the public release of our interactive quantum circuit simulator …
EuRyQa project launched
We are part of the EuRyQa project which is starting in October 2022. The project aims to provide a unique European solution for Rydberg-based quantum computing …
Studying a controlled-phase gate
Understanding the errors for native gates of a Rydberg quantum computer is key to bring demonstrators closer to real-world applications …