Philip Ball looks at how a little-known paper by Niels Bohr demonstrates the turmoil in physics on the brink of quantum ...

Quantum physics will be 100 years old in 2025. In order to appreciate progress in quantum physics, we must not get caught up ...

Errors in quantum computers are an obstacle for their widespread use. But a team of scientists say that, by using an antimony ...

First proposed in 1935 by the Austrian physicist Erwin Schrödinger, "Schrödinger's cat" was designed to highlight the ...

Have you ever struggled with the concept of quantum measurement, feeling it’s unnecessarily abstract? You’re not alone. Enter this guide by [Mithuna] from Looking Glass Universe, where she circles ...

The phenomenon of quantum tunneling transforms our understanding of particle behavior, enabling breakthroughs in ...

New research provides a solution to time travel paradoxes by demonstrating that quantum mechanics prevents one from ever ...

A dialogue between Giuseppe Mussardo and Chiara Sabelli about the history of quantum mechanics, retracing the fundamental milestones, key figures, and most significant moments of one of the greatest ...

Levitated nanodiamonds with embedded spin qubits are promising for precision measurements and could help create large quantum superpositions to test the limits of quantum mechanics and gravity. Li ...

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The emergence of quantum computing represents a transformative shift in technology, promising unparalleled computational power while posing significant risks, particularly cybersecurity. By Amritesh ...