JUNO Conceptual Design Report

The Jiangmen Underground Neutrino Observatory (JUNO) is proposed to determine the neutrino mass hierarchy using an underground liquid scintillator detector. It is located 53 km away from both Yangjiang and Taishan Nuclear Power Plants in Guangdong, China. The experimental hall, spanning more than 50 meters, is under a granite mountain of over 700 m overburden. Within six years of running, the detection of reactor antineutrinos can resolve the neutrino mass hierarchy at a confidence level of 3-4$\sigma$, and determine neutrino oscillation parameters $\sin^2\theta_{12}$, $\Delta m^2_{21}$, and $|\Delta m^2_{ee}|$ to an accuracy of better than 1%. The JUNO detector can be also used to study terrestrial and extra-terrestrial neutrinos and new physics beyond the Standard Model. The central detector contains 20,000 tons liquid scintillator with an acrylic sphere of 35 m in diameter. $\sim$17,000 508-mm diameter PMTs with high quantum efficiency provide $\sim$75% optical coverage. The current choice of the liquid scintillator is: linear alkyl benzene (LAB) as the solvent, plus PPO as the scintillation fluor and a wavelength-shifter (Bis-MSB). The number of detected photoelectrons per MeV is larger than 1,100 and the energy resolution is expected to be 3% at 1 MeV. The calibration system is designed to deploy multiple sources to cover the entire energy range of reactor antineutrinos, and to achieve a full-volume position coverage inside the detector. The veto system is used for muon detection, muon induced background study and reduction. It consists of a Water Cherenkov detector and a Top Tracker system. The readout system, the detector control system and the offline system insure efficient and stable data acquisition and processing.Comment: 328 pages, 211 figure

Radio Channel Characterization for Future Wireless Networks and Applications

The new frontier of Above-6GHz bands is revolutionizing the field of wireless telecommunications, requiring new radio channel models to support the development of future Giga-bit-per-second systems. Recently, deterministic ray-based models as Ray Tracing are catching on worldwide thanks to their frequency-agility and reliable predictions. A modern 3D Ray Tracing developed at University of Bologna has been indeed calibrated and used to investigate the Above-6GHz radio channel properties. As starting point, an item-level electromagnetic characterization of common items and materials has been achieved successfully to obtain information about the complex permittivity, scattering diagrams and even de-polarization effects, both utilizing Vector Spectrum Analyzer (at 7-15GHz) and custom Channel Sounder (at 70GHz). Thus, a complete tuning of the Ray Tracing has been completed for Above-6GHz frequencies. Then, 70GHz indoor doubledirectional channel measurements have been performed in collaboration with TU Ilmenau, in order to attain a multidimensional analysis of propagation mechanisms in time and space, outlining the differences between Below- and Above-6GHz propagation. Furthermore, multi-antenna systems, as Multiple-Input-Multiple- Output (MIMO) and Beamforming have been taken into considerations, as strategic technologies for Above-6GHz systems, focusing on their implementation, limits and differences. Finally, complex system simulations of Space-Division-Multiple- Access (SDMA) networks in indoor scenarios have been tested, to assess the capabilities of Beamforming. In particular, efficient Beam Search and Tracking algorithms have been proposed to assess the impact of interference on Multi-User Beamforming at 70GHz and, also, novel Multi-Beam Beamforming schemes have been tested at 60GHz to investigate diversity strategies to cope with NLOS link and Human Blockage events. Moreover, the novel concept of Ray-Tracing-assisted Beamforming has been outlined, showing that ray-based models represent today the promising key tools to evaluate, design and enhance the future Above-6GHz multi-antenna systems

NASA Tech Briefs, February 1996

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