{"id":610432,"date":"2024-06-12T16:08:35","date_gmt":"2024-06-12T20:08:35","guid":{"rendered":"https:\/\/www.rochester.edu\/newscenter\/?p=610432"},"modified":"2024-07-16T09:55:55","modified_gmt":"2024-07-16T13:55:55","slug":"relativistic-pair-plasma-beams-experiments-610432","status":"publish","type":"post","link":"https:\/\/www.rochester.edu\/newscenter\/relativistic-pair-plasma-beams-experiments-610432\/","title":{"rendered":"Pair plasmas found in deep space can now be generated in the lab"},"content":{"rendered":"

An international team of scientists has developed a novel way to experimentally produce plasma \u2018fireballs\u2019 on Earth.<\/h2>\n

Black holes and neutron stars are among the densest known objects in the universe. Within and around these extreme astrophysical environments exist plasmas, the fourth fundamental state of matter alongside solids, liquids, and gases. Specifically, the plasmas at these extreme conditions are known as relativistic electron-positron pair plasmas because they comprise a collection of electrons and positrons\u2014all flying around at nearly the speed of light.<\/p>\n

While such plasmas are ubiquitous in deep space conditions, producing them in a laboratory setting has proved challenging.<\/p>\n

Now, for the first time, an international team of scientists, including researchers from the Ä¢¹½´«Ã½<\/a>\u2019s Laboratory for Laser Energetics<\/a> (LLE), has experimentally generated high-density relativistic electron-positron pair-plasma beams by producing two to three orders of magnitude more pairs than previously reported. The team\u2019s <\/a>findings<\/a> appear in Nature Communications<\/em>.<\/p>\n

The breakthrough opens the doors to follow-up experiments that could yield fundamental discoveries about how the universe works.<\/p>\n

\u201cThe laboratory generation of plasma \u2018fireballs\u2019 composed of matter, antimatter, and photons is a research goal at the forefront of high-energy-density science,\u201d says lead author Charles Arrowsmith, a physicist from the University of Oxford who is joining LLE in the fall. \u201cBut the experimental difficulty of producing electron-positron pairs in sufficiently high numbers has, to this point, limited our understanding to purely theoretical studies.\u201d<\/p>\n

Rochester researchers Dustin Froula<\/a>, the division director for plasma and ultrafast laser science and engineering at LLE, and Daniel Haberberger<\/a>, a staff scientist at LLE, collaborated with Arrowsmith and other scientists to design a novel experiment harnessing the HiRadMat facility<\/a> at the Super Proton Synchrotron (SPS) accelerator at the European Organization for Nuclear Research (CERN) in Geneva, Switzerland.<\/p>\n

\"Illustration
HOW IT WORKS:<\/strong> A proton (far left) from the Super Proton Synchrotron (SPS) accelerator at CERN impinges on carbon nuclei (small gray spheres). This produces a shower of various elementary particles, including a large number of neutral pions (orange spheres). As the unstable neutral pions decay, they emit two high-energy gamma rays (yellow squiggly arrows). These gamma rays then interact with the electric field of Tantalum nuclei (large gray spheres), generating electron and positron pairs and resulting in the novel electron-positron fireball plasma. Because of these cascade effects, a single proton can generate many electrons and positrons, making this process of pair plasma production extremely efficient. (Ä¢¹½´«Ã½ Laboratory for Laser Energetics illustration \/ Heather Palmer)<\/figcaption><\/figure>\n

That experiment generated extremely high yields of quasi-neutral electron-positron pair beams using more than 100 billion protons from the SPS accelerator. Each proton carries a kinetic energy that is 440 times larger than its resting energy. Because of such large momentum, when the proton smashes an atom, it has sufficient energy to release its internal constituents\u2014quarks and gluons\u2014which then immediately recombine to produce a shower that ultimately decays into electrons and positrons.<\/p>\n

In other words, the beam they generated in the lab had enough particles to start behaving like a true astrophysical plasma.<\/p>\n

\u201cThis opens up an entirely new frontier in laboratory astrophysics by making it possible to experimentally probe the microphysics of gamma-ray bursts or blazar jets,\u201d Arrowsmith says.<\/p>\n

The team has also developed techniques to modify the emittance of pair beams, making it possible to perform controlled studies of plasma interactions in scaled analogues of astrophysical systems.<\/p>\n

\u201cSatellite and ground telescopes are not able to see the smallest details of those distant objects and so far we could only rely on numerical simulations. Our laboratory work will enable us to test those predictions obtained from very sophisticated calculations and validate how cosmic fireballs are affected by the tenuous interstellar plasma,\u201d says coauthor Gianluca Gregori, a professor of physics at the University of Oxford.<\/p>\n

Moreover, he adds, \u201cThe achievement highlights the importance of exchange and collaboration between experimental facilities around the world, especially as they break new ground in accessing increasingly extreme physical regimes.\u201d<\/p>\n

In addition to LLE, University of Oxford, and CERN<\/a>, collaborating institutions on this research include the Science and Technology Facilities Council Rutherford Appleton Laboratory (STFC RAL), the University of Strathclyde, the Atomic Weapons Establishment in the UK, the Lawrence Livermore National Laboratory, the Max Planck Institute for Nuclear Physics, the University of Iceland, and the Instituto Superior T\u00e9cnico in Portugal.<\/p>\n

The team\u2019s findings come amid ongoing efforts to advance plasma science by colliding ultrahigh-intensity lasers, an avenue of research that will be explored using the NSF OPAL Facility<\/a>.<\/p>\n

This project has received funding from the European Union\u2019s Horizon Europe Research and Innovation program under Grant Agreement No 101057511 (EURO-LABS).<\/em><\/p>\n","protected":false},"excerpt":{"rendered":"

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