6100 Atomic Qubits - Hannah Manetsch

2025
Quantum Computing
Quantum Science
Qubits
Neutral Atom Quantum Computing
Optical Tweezers
Cesium Atoms
Quantum Information
Quantum Simulation
Quantum Computation
Quantum Networking
Quantum Sensing
Quantum Metrology
Coherence Time
T1 Time
T2 Time
Quantum Gates
Two-Qubit Gates
Ultracold Atoms
Atomic Physics
Laser Physics
Quantum Hardware
Quantum Technology
Neutral Atoms
Optical Traps
High Fidelity Detection
Scalable Quantum Systems
Quantum Engineering
experimental physics
Quantum Algorithms
Photonics

This research scales neutral-atom quantum computing using optical tweezer arrays containing over 6,100 cesium atoms trapped across 12,000 tweezers. The work demonstrates record coherence times, high-fidelity atom detection, and controllable atom movement, advancing the development of large-scale quantum computers capable of quantum simulation, computation, sensing, and networking.

 

 

Quantum (R)evolution - Simona Zaccaria

University of Bologna
2026
Quantum Computing
Qubits
Superconducting Circuits
Quantum Mechanics
Computational Physics
Simulation Tools
Quantum Algorithms
Hardware Design
Quantum Decoherence
Emerging Technologies
High Performance Computing
Open Source Software

This research addresses the challenge of building stable quantum computers by modelling superconducting qubits. It develops simulation tools to predict behaviour, optimise design, and reduce errors caused by environmental disturbances. By improving qubit reliability, the work supports scalable quantum computing capable of solving complex problems beyond classical computational limits.

 

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