How are hadrons born at the huge energies available in the LHC?

1 March 2018

Our world consists mainly of particles built up of three quarks bound by gluons. The process of the sticking together of quarks, called hadronisation, is still poorly understood. Physicists from the Institute of Nuclear Physics Polish Academy of Sciences in Cracow, working within the LHCb Collaboration, have obtained new information about it, thanks to the analysis of unique data collected in high-energy collisions of protons in the LHC.

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The search for dark matter: Axions have ever fewer places to hide

14 February 2018

If they existed, axions – one of the candidates for particles of the mysterious dark matter – could interact with the matter forming our world, but they would have to do this to a much, much weaker extent than it has seemed up to now. New, rigorous constraints on the properties of axions have been imposed by an international team of scientists responsible for the nEDM experiment.

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What sort of stream networks do scientific ideas flow along?

10 January 2018

When scientists have an interesting idea, the result is usually a joint publication. At the Institute of Nuclear Physics of the Polish Academy of Sciences in Cracow, it has been shown that tracking the dependencies between co-authors, one can not only see the paths along which scientific ideas flow, but also reconstruct the structure of scientific cooperation and detect emerging communities. Interestingly, the proposed method of analysis can be an effective tool to fight terrorists and... dishonest politicians.

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GAMBIT narrows the hiding places for ‘new physics’

14 December 2017

The elementary particles of ‘new physics’ must be so massive that their detection in the LHC, the largest modern accelerator, will not be possible. This none- too-optimistic conclusion comes from the most comprehensive review of observational data from many scientific experiments and their confrontation with several popular varieties of supersymmetry theory. The complicated, extremely computationally demanding analysis was carried out by the team of the international GAMBIT Collaboration – and leaves a shadow of hope.

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NuPECC launches the 5^th European long-range plan for nuclear physics

28 November 2017

The Nuclear Physics European Collaboration Committee (NuPECC) has launched today its fifth Long-Range Plan (LRP 2017) for nuclear physics in Europe. This was marked formally at an event in the Brussels-based University Foundation. The event was attended by leading figures from the worlds of research, academia and European institutions.

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