More quantum wonders unveiled: Nicolas Gisin's team strikes again

new research

Remember those intriguing articles on Nicolas Gisin's team’s quantum breakthroughs? Well, fasten your seatbelts because the saga continues. Quantum wonders continue to unfold as Dr. Alejandro Pozas-Kersten, collaborator with Nicolas Gisin's team, leads their latest research paper, "Post-quantum nonlocality in the minimal triangle scenario," now published in the New Journal of Physics.


Now, what sets this exploration apart? Enter the triangular network.

In this exploration, the team ventures into the minimal triangle scenario, unveiling a post-quantum probability distribution challenging both local and quantum models—an impactful stride in understanding network non-locality.


Key findings:

• Triangle challenge: Can genuine triangle nonlocality exist with no input and only binary outputs? Dr. Pozas-Kersten's team disproves the notion that it's impossible within quantum theory.

• Quantum nonlocality proven: Meticulous analysis proves the existence of nonlocal correlations in the minimal triangle scenario, adhering to no-signaling and source independence conditions.

• Equivalent to Popescu-Rohrlich Box: The team identifies the equivalent of a Popescu-Rohrlich box in the minimal triangle scenario, unlocking new insights into the quantum landscape in network scenarios.

• Implications and future directions: The study paves the way for further research, challenging our understanding of quantum phenomena in network scenarios.


Dive deeper: For those at the forefront of quantum research, this paper is a must-read. Journey into post-quantum nonlocality, challenge preconceptions, and witness the unveiling of new possibilities.


 Read the full paper here -


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