Physicists create fractional Fermi sea with ultracold atoms

Researchers at the University of Oxford have generated a new family of quantum superpositions using nonclassical components in a trapped ion system. The work demonstrates programmable control over exotic motional states and could advance quantum technologies.

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Scientists at Rice University have determined that cerium magnesium hexalluminate, previously thought to host a quantum spin liquid, actually exhibits a novel state of matter driven by competing magnetic forces. The discovery, detailed in a study published in Science Advances, explains the material's lack of magnetic order and continuum of energy states through neutron scattering experiments. Researchers describe it as the first observation of such a phenomenon.

Researchers at Tokyo University of Science have demonstrated matter-wave diffraction in positronium, an exotic atom formed by an electron and its antimatter counterpart, a positron. This marks the first observation of quantum interference in such a system. The findings, published in Nature Communications, confirm positronium's wave-particle duality.

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Physicists with the STAR collaboration have observed particles emerging directly from empty space during high-energy proton collisions at Brookhaven National Laboratory. The experiment provides strong evidence that mass can arise from vacuum fluctuations, as predicted by quantum chromodynamics. Quark-antiquark pairs promoted to real particles retained spin correlations tracing back to the vacuum.