David F. Locher — Scifaro

Multiqubit Rydberg Gates for Quantum Error Correction

Multiqubit gates that involve three or more qubits are usually thought to be of little significance for fault-tolerant quantum error correction because single gate faults can lead to errors of high Pauli weight. However, recent works have…

Quantum Physics · Physics 2026-05-05 David F. Locher , Josias Old , Katharina Brechtelsbauer , Jakob Holschbach , Hans Peter Büchler , Sebastian Weber , Markus Müller

Measurement-free quantum error correction optimized for biased noise

In this paper, we derive optimized measurement-free protocols for quantum error correction and the implementation of a universal gate set optimized for an error model that is noise biased . The noise bias is adapted for neutral atom…

Quantum Physics · Physics 2025-12-18 Katharina Brechtelsbauer , Friederike Butt , David F. Locher , Santiago Higuera Quintero , Sebastian Weber , Markus Müller , Hans Peter Büchler

Measurement-free fault-tolerant quantum error correction in near-term devices

Logical qubits can be protected from decoherence by performing QEC cycles repeatedly. Algorithms for fault-tolerant QEC must be compiled to the specific hardware platform under consideration in order to practically realize a quantum memory…

Quantum Physics · Physics 2025-05-13 Sascha Heußen , David F. Locher , Markus Müller

Weak pinning and long-range anticorrelated motion of phase boundaries in driven diffusive systems

We show that domain walls separating coexisting extremal current phases in driven diffusive systems exhibit complex stochastic dynamics, with a subdiffusive temporal growth of position fluctuations due to long-range anticorrelated current…

Statistical Mechanics · Physics 2025-03-14 Sören Schweers , David F. Locher , Gunter M. Schütz , Philipp Maass

Bosonic Quantum Error Correction with Neutral Atoms in Optical Dipole Traps

Bosonic quantum error correction codes encode logical qubits in the Hilbert space of one or multiple harmonic oscillators. A prominent class of bosonic codes is that of Gottesman-Kitaev-Preskill (GKP) codes of which implementations have…

Quantum Physics · Physics 2025-02-28 Leon H. Bohnmann , David F. Locher , Johannes Zeiher , Markus Müller

Measurement-free, scalable and fault-tolerant universal quantum computing

Reliable execution of large-scale quantum algorithms requires robust underlying operations and this challenge is addressed by quantum error correction (QEC). Most modern QEC protocols rely on measurements and feed-forward operations, which…

Quantum Physics · Physics 2024-10-18 Friederike Butt , David F. Locher , Katharina Brechtelsbauer , Hans Peter Büchler , Markus Müller

Noise-aware variational eigensolvers: a dissipative route for lattice gauge theories

We propose a novel variational ansatz for the ground-state preparation of the $\mathbb{Z}_2$ lattice gauge theory (LGT) in quantum simulators. It combines dissipative and unitary operations in a completely deterministic scheme with a…

Quantum Physics · Physics 2024-08-28 Jesús Cobos , David F. Locher , Alejandro Bermudez , Markus Müller , Enrique Rico

Computational Capabilities and Compiler Development for Neutral Atom Quantum Processors: Connecting Tool Developers and Hardware Experts

Neutral Atom Quantum Computing (NAQC) emerges as a promising hardware platform primarily due to its long coherence times and scalability. Additionally, NAQC offers computational advantages encompassing potential long-range connectivity,…

Quantum Physics · Physics 2024-04-04 Ludwig Schmid , David F. Locher , Manuel Rispler , Sebastian Blatt , Johannes Zeiher , Markus Müller , Robert Wille

Quantum Error Correction with Quantum Autoencoders

Active quantum error correction is a central ingredient to achieve robust quantum processors. In this paper we investigate the potential of quantum machine learning for quantum error correction in a quantum memory. Specifically, we…

Quantum Physics · Physics 2023-03-15 David F. Locher , Lorenzo Cardarelli , Markus Müller