Our new preprint is out, proposing a fast, efficient Trotter decomposition “beyond commutativity”!💪
Check the arXiv link below, and feel free to scite us too;) ✅
arXiv: https://t.co/MTTLgchgjU
SciRate: https://t.co/OdbiIy6a0J
Congratulations to Charles H. Bennett (@IBMResearch) and Gilles Brassard ( @UMontreal) on receiving the 2025 ACM A.M. Turing Award!
🔗: https://t.co/UQ5C1K1kVT
We've opened a call for positions in our group (Project Researcher/Project Assistant Professor). If you work on the theory of quantum computation & quantum information, let's push the field forward together.
Deadline: Mar 31, 2026.
https://t.co/VaUhULG46O
https://t.co/EQaEWgRP53
Recently, we also posted a new arXiv preprint: 2601.18680 (link: https://t.co/dAfK4Btg72), a joint work with Marine Demarty, Kenza Hammam, and Pauline Besserve💪
This provides practical and principled criteria for assessing potential quantum advantage under a finite shot budget.
I'm so happy to share that this paper has been published in AVS Quantum Science!🥳
https://t.co/YuqUm7oxiw
This work showcases the existence of a fundamentally novel Trotter decomposition that reduces the residual error itself.
A universal framework will show up on arXiv soon!
I am excited to share our significantly revised arXiv paper: https://t.co/lcbCvztsBs 💪☺️
"Quantum simulation of many-body dynamics with noise-robust Trotter decomposition based on symmetric structures", a joint work with Naoki Negishi, now at the University of Rome Tor Vergata.