3,113 research outputs found
Kaon physics with KLOE
Kaon physics can test new-physics effects in leptonic or semileptonic decays.
A unitarity test of the first row of the CKM mixing matrix is obtained from the
precision measurements of Kl3 widths for K{\pm}, KL, and (unique to KLOE) KS.
The KLOE measurement of RK = {\Gamma}(Ke2)/{\Gamma}(K{\mu}2) with an accuracy
at the % level, aims at finding evidence of deviations from the SM prediction
induced by lepton-flavor violation new-physics effects.Comment: 8 pages, 2 figures, 1 table, proceedings of the La Thuile 2010
Conferenc
Kaon physics
Kaon physics can test new-physics effects in leptonic or semileptonic decays. A unitarity test of the first row of the CKM mixing matrix is obtained from the precision measurements of K�3 widths for K ±, KL, and KS. The measurement of RK = Γ(K+ → e+ν)/Γ(K+ → μ+ν) with an accuracy at the % level, aims at finding evidence of deviations from the SM prediction induced by lepton-flavor
violation new-physics effects
Investigation of Two-Phase Flows in Piping Bends and Elbows
An experimental investigation of the hydrodynamic characteristics of two-phase R-113 flow has been carried out. Straight tube pressure drop data, as a function of mass flow rate (mass flux) and flow quality has been obtained using the Two-Phase Flow Test Facility located in the Advanced Thermal Laboratories of the Crew and Thermal Systems Division at the Lyndon B. Johnson Space Center. Additionally, after successfully obtaining the straight tube pressure drop data, the test facility was modified in order to obtain pressure drop data for the flow of two-phase R-113 through 180 deg piping bends. Inherent instabilities of the test facility prevented the successful acquisition of pressure drop data through the piping bends. The experimental straight tube data will be presented and compared with existing predictive correlations in an attempt to gain insight into the utility of such correlations as the basis for developing design criteria. A discussion of the instabilities which rendered successful acquisition of the piping bend data will be presented and suggestions will be made for eliminating these system tendencies. Finally, recommendations for future investigations, based on successful reconfiguration of the test facility, will be made
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