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The neuquen Basin represents the southeastern embayment of the Jurassic marginal sea. The rather complete Middle Jurassic ammonite-bearing sequence interfingers with continental deposits toward basin margin. It includes mainly the Cuyan Sedimentary Cycle, with Pliensbachian — Upper Bajocian Lower Subcycle and Upper Bathonian — Middle Callovian Upper Subcycle; followed by Upper Callovian — Upper Jurassic...
The Compact Muon Solenoid (CMS) detector installed at the CERN Large Hadron Collider (LHC) has an extensive muon system which provides information simultaneously for identification, track reconstruction and triggering of muons. As a consequence of the extreme particle rate and high integrated charge, the essentiality to upgrade the LHC has given rise to the High Luminosity phase of the LHC (HL-LHC)...
The Compact Muon Solenoid (CMS) detector is one of the two general-purpose detectors at the CERN LHC. LHC will provide exceptional high instantaneous and integrated luminosity after second long shutdown. The forward region |η| ≥ 1:5 of CMS detector will face extremely high particle rates in tens of kHz/cm2 and hence it will affect the momentum resolution, efficiency and longevity of the muon detectors...
For the High-Luminosity LHC (HL-LHC) phase the CMS GEM Collaboration is planning to install new large-size (990×220–455mm2) triple-GEM detectors, equipped with a new readout system, in the forward region of the muon system (1.5< |η| <2.2) of the CMS detector. Combining triggering and tracking functionalities the new triple-foil Gas Electron Multiplier (GEM) chambers will improve both the performance...
Gas Electron Multiplier (GEM) technology is being considered for the forward muon upgrade of the CMS experiment in Phase 2 of the CERN LHC. Its first implementation is planned for the GE1/1 system in the 1.5 <| η |< 2.2 region of the muon endcap mainly to control muon level-1 trigger rates after the second long LHC shutdown. A GE1/1 triple-GEM detector is read out by 3,072 radial strips with...
The aim of the AEḡIS experiment is to measure the gravitational acceleration for anti-hydrogen in the Earth's gravitational field, thus testing the Weak Equivalence Principle, which states that all bodies fall with the same acceleration independent of their mass and composition. AEḡIS will make use of a gravity module which includes a silicon detector, in order to measure the deflection of anti-hydrogen...
The use atmospheric plasma sources for applications in the aerodynamical and aeromotive sector is relatively new1. The research focused mainly on the aerodynamics performances and to a much lesser extent to the plasma state. Indeed diagnostics of atmospheric pressure plasmas are very demanding because of the short temporal and the small spatial scales involved in the plasma state and in the different...
The use atmospheric plasma sources for applications in the health and biomedical sector is a promising new field of applied plasma research1. The research focused mainly on the application and less is known concerning the plasma state. Indeed diagnostics of atmospheric pressure plasmas are very demanding because of the short temporal and the small spatial scales involved in the plasma state and in...
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