String theory emerges from basic physics assumptions in new study

Physicists have shown that the key signatures of string theory can arise naturally from a handful of simple rules about particle behavior at extreme energies. Researchers from Caltech, New York University, and a Barcelona institute reached this result using a bootstrap approach that starts with minimal assumptions rather than presupposing strings. The work has been accepted for publication in Physical Review Letters.

The team began with two conditions on how particles scatter in high-energy collisions. One requires the scattering probabilities to drop off rapidly at very high energies, a property known as ultrasoftness. The second imposes the fewest possible points where those probabilities reach zero. From these constraints alone, the mathematics produced the infinite tower of particle masses and spins that define the string spectrum, along with other hallmarks of the theory.

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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.

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Physicists have created a simple model of the universe using ultracold atoms to explore whether time arises from quantum effects rather than existing independently. The work, led by researchers at the University of Birmingham, offers new experimental support for ideas that have circulated for decades.

An international team of physicists has found that quantum collapse models, potentially linked to gravity, introduce a minuscule uncertainty in time itself. This sets a fundamental limit on clock precision, though far below current detection levels. The research, published in Physical Review Research, explores ties between quantum mechanics and gravity.

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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.

Researchers at the University of Colorado Boulder have developed a material made from staple-shaped particles that can switch between being strong and flexible or falling apart on command.

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New research reinterprets the Einstein-Rosen bridge as a connection between two directions of time rather than a spatial shortcut. The study suggests this view could resolve the black hole information paradox and point to a universe that existed before the Big Bang. It was published in the journal Classical and Quantum Gravity.

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Physicists create fractional Fermi sea with ultracold atoms

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Brown researchers link quantum gravity to cosmological constant

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Photons multiply infinitely when partially reflected by fast mirror

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Supercomputer simulations explain formation of cosmic magnetic fields

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Dampe telescope reveals universal pattern in cosmic rays

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Evidence suggests universe is lumpier than long assumed

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Gravitational waves may have created early universe dark matter

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Physicists link extreme neutrino to exploding primordial black hole

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