Capacity-Time Trade-off in Quantum Memory
Published:Dec 30, 2025 14:14
•1 min read
•ArXiv
Analysis
This paper addresses a critical challenge in quantum memory: the limitations imposed by real-world imperfections like disordered coupling and detuning. It moves beyond separate analyses of these factors to provide a comprehensive model that considers their correlated effects. The key contribution is identifying a fundamental trade-off between storage capacity, storage time, and driving time, setting a universal limit for reliable storage. The paper's relevance lies in its potential to guide the design and optimization of quantum memory devices by highlighting the interplay of various imperfections.
Key Takeaways
- •Develops a comprehensive model incorporating disordered coupling and detuning in quantum memory.
- •Identifies a fundamental trade-off between storage capacity, storage time, and driving time.
- •Highlights the importance of parameter independence for improving reliability in multi-process memory devices.
- •Provides insights relevant to current experimental protocols for measuring and correcting global detuning.
Reference
“The paper identifies a fundamental trade-off among storage capacity, storage time, and driving time, setting a universal limit for reliable storage.”