The JUNO experiment locates in Jinji town, Kaiping city, Jiangmen city, Guangdong province. The geographic location is east longitude 112 • 31'05' and North latitude 22 • 07'05'. The experimental site is 43 km to the southwest of the Kaiping city, a county-level city in the prefecture-level city Jiangmen in Guangdong province. There are five big cities, Guangzhou, Hong Kong, Macau, Shenzhen, and Zhuhai, all in ∼200 km drive distance, as shown in figure 3.
By using the ATLAS detector, observations have been made of a centrality-dependent dijet asymmetry in the collisions of lead ions at the Large Hadron Collider. In a sample of lead-lead events with a per-nucleon center of mass energy of 2.76 TeV, selected with a minimum bias trigger, jets are reconstructed in fine-grained, longitudinally segmented electromagnetic and hadronic calorimeters. The transverse energies of dijets in opposite hemispheres are observed to become systematically more unbalanced with increasing event centrality leading to a large number of events which contain highly asymmetric dijets. This is the first observation of an enhancement of events with such large dijet asymmetries, not observed in proton-proton collisions, which may point to an interpretation in terms of strong jet energy loss in a hot, dense medium.
A search for a long-lived scalar particle χ is performed, looking for the decay B þ → K þ χ with χ → μ þ μ − in pp collision data corresponding to an integrated luminosity of 3 fb −1 , collected by the LHCb experiment at center-of-mass energies of ffiffi ffi s p ¼ 7 and 8 TeV. This new scalar particle, predicted by hidden sector models, is assumed to have a narrow width. The signal would manifest itself as an excess in the dimuon invariant mass distribution over the Standard Model background. No significant excess is observed in the accessible ranges of mass 250 < mðχÞ < 4700 MeV=c 2 and lifetime 0.1 < τðχÞ < 1000 ps. Upper limits on the branching fraction BðB þ → K þ χðμ þ μ − ÞÞ at 95% confidence level are set as a function of mðχÞ and τðχÞ, varying between 2 × 10 −10 and 10 −7. These are the most stringent limits to date. The limits are interpreted in the context of a model with a light inflaton particle.
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