Flavor symmetry of the high-energy world does not work as expected

7 May 2025

In collisions of argon and scandium atomic nuclei, scientists from the international NA61/SHINE experiment have observed a clear anomaly indicative of a violation of one of the most important symmetries of the quark world: the approximate flavor symmetry between up and down quarks. The existence of the anomaly may be due to hitherto unknown inadequacies in current nuclear collision models, but the potential connection to the long sought-after ‘new physics’ cannot be ruled out.

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A cosmic chameleon escapes classification

12 March 2025

Blazars are active galaxies that emit narrow jets of ionised matter from their centres, aimed towards Earth. Depending on properties of the electromagnetic radiation emitted by the jets, astronomers divide such objects into different, clearly defined classes. However, with the BL Lacertae blazar, located in the background of the Lizard constellation, things turn out to be not quite so simple.

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Entanglement inside proton ‘X-rayed’ with quantum information tools

5 February 2025

In recent years, there have been attempts to describe the inside of a proton using quantum information tools, with partial success. It has been discovered that quantum entanglement in the proton is maximal, and that its main sources are constantly ‘boiling’ seas of virtual gluons and quarks. In the article just published, this new formalism has already become so universal that it correctly reproduces, for the first time, all currently available experimental data.

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New 2D multifractal tools delve into Pollock's expressionism

15 January 2025

The temperature changes hour to hour and day to day, exchange rates behave no differently. Wherever studies of the variability of similar one-dimensional time series are concerned, analyses based on multifractals have managed to gain recognition. Now, these tools have been developed and successfully applied to two-dimensional cases, including the study of abstract paintings by Jackson Pollock.

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The CTAO Becomes a European Research Infrastructure Consortium

10 January 2025

Bologna, Italy, 7 January 2025 – On January 7, 2025, the European Commission established the Cherenkov Telescope Array Observatory (CTAO) as a European Research Infrastructure Consortium (ERIC), furthering its mission to become the world’s largest and most powerful observatory for gamma-ray astronomy. The creation of the CTAO ERIC will enable the Observatory's construction to advance rapidly and provide a framework for distributing its data worldwide, significantly accelerating its progress toward scientific discovery.

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