Research Paper#Quantum Physics, Black Holes, Quantum Information🔬 ResearchAnalyzed: Jan 3, 2026 17:13
Detecting Entanglement Near Black Holes
Published:Dec 30, 2025 19:03
•1 min read
•ArXiv
Analysis
This paper addresses a fundamental question in quantum physics: can we detect entanglement when one part of an entangled system is hidden behind a black hole's event horizon? The surprising answer is yes, due to limitations on the localizability of quantum states. This challenges the intuitive notion that information loss behind the horizon makes the entangled and separable states indistinguishable. The paper's significance lies in its exploration of quantum information in extreme gravitational environments and its potential implications for understanding black hole information paradoxes.
Key Takeaways
- •Entanglement can be detected even when one part of the entangled system is behind a black hole's event horizon.
- •This is possible due to limitations on the localizability of quantum states.
- •The paper uses quantum state discrimination theory to analyze a concrete realization of this phenomenon.
- •The findings have implications for understanding quantum information in extreme gravitational environments.
Reference
“The paper shows that fundamental limitations on the localizability of quantum states render the two scenarios, in principle, distinguishable.”