![]() ![]() ![]() ![]() Intensity frontier physicsĮxperiments at the intensity frontier require very high-intensity beams and advanced instrumentation to search for new physics through virtual particles enhancing rare processes via quantum loops. Thanks to our groups’ world-leading expertise and specialist technical services, we play a key role in the experiment’s infrastructure from the ITk pixel and strip detector to preparing form the a next-generation electron-positron Higgs factory. In ATLAS, we lead physics analyses on searches for new physics beyond the Standard Model, to understand the Higgs boson and Standard Model precision measurements. Our research programme at the high-energy frontier focuses on the ATLAS experiment at CERN LHC. with quantum technologies to explore fundamental physics.to explore the dark Universe (dark energy and dark matter).at the intensity frontier to understand the matter-antimatter asymmetry, rare phenomena, and new interactions.at the high-energy frontier to study the Higgs boson and to search for new physics.We use accelerator, non-accelerator-based experiments and quantum technologies and develop instrumentation and novel acceleration techniques to enable our science. Our world-leading research in experimental particle physics explores the most fundamental constituents of our Universe to understand their makeup and the forces acting between them our work is underpinned by our novel instrumentation techniques and by the John Adams Institute, an academic centre of excellence for accelerator science and technology. ![]()
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