Quantum computers aim to enhance nonlocality in rock-paper-scissors.

A recent study published in Physical Review A has proposed a theoretical framework for attaining a higher nonlocal probability using quantum computers and methods to investigate the measurement of Hardy nonlocality. The study discovered that nonlocal probability increases as the number of particles grows, suggesting that quantum effects persist even at larger scales, further challenging classical theories of physics. Understanding quantum nonlocality can lead to groundbreaking technological advancements, such as the secure transmission of information through quantum communication via nonlocality resources.