46,816 research outputs found

    Effects of Volcanic Emissions on Clouds During Kilauea Degassing Events

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    Aerosols influence Earths radiative balance directly by scattering and absorbing solar radiation, and indirectly by modifying cloud properties. Current scientific consensus indicates that these effects may offset as much as 50% of the warming due to greenhouse gas emissions. Over the last two decades dramatic volcanic events in Hawaii have produced localized aerosol emissions in otherwise clean environments. These are natural experiments" where the aerosol effects on clouds and climate can be partitioned from other effects like meteorology and industrial emissions. Therefore, these events provide a unique opportunity to learn about possible effects of aerosol pollution on climate through cloud modification. In this work we use the version 5 of the NASA Goddard Earth Observing System (GEOS-5) and satellite retrievals to analyze and evaluate the strength of the aerosol indirect effect on liquid and ice clouds during the 2008 and 2018 Kilauea degassing events using different emissions scenarios (0, 1, and 5 actual emissions). Our results suggested that the 2018 event was stronger and more regionally significant with respect to cloud formation process for both liquid and ice clouds, while the 2008 affected local liquid clouds only. GEOS-5 predictions reproduced spatial patterns for all parameters, however better precision could be gained by using more accurate plume parameters for height and ash concentration

    Performance Analysis of a Dual-Hop Cooperative Relay Network with Co-Channel Interference

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    This paper analyzes the performance of a dual-hop amplify-and-forward (AF) cooperative relay network in the presence of direct link between the source and destination and multiple co-channel interferences (CCIs) at the relay. Specifically, we derive the new analytical expressions for the moment generating function (MGF) of the output signal-to-interference-plus-noise ratio (SINR) and the average symbol error rate (ASER) of the relay network. Computer simulations are given to confirm the validity of the analytical results and show the effects of direct link and interference on the considered AF relay network

    Vapor-liquid phase separator studies

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    A study of porous plug use for vapor-liquid phase seperation in spaceborne cryogenic systems was conducted. The three main topics addressed were: (1) the usefulness of porous media in designs that call for variable areas and flow rates; (2) the possibility of prediction of main parameters of porous plugs for a given material; and (3) prediction of all parameters of the plug, including secondary parameters

    Coexistence of full which-path information and interference in Wheelers delayed choice experiment with photons

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    We present a computer simulation model that is a one-to-one copy of an experimental realization of Wheeler's delayed choice experiment that employs a single photon source and a Mach-Zehnder interferometer composed of a 50/50 input beam splitter and a variable output beam splitter with adjustable reflection coefficient RR (V. Jacques {\sl et al.}, Phys. Rev. Lett. 100, 220402 (2008)). For 0≤R≤0.50\le R\le 0.5, experimentally measured values of the interference visibility VV and the path distinguishability DD, a parameter quantifying the which-path information WPI, are found to fulfill the complementary relation V2+D2≤1V^2+D^2\le 1, thereby allowing to obtain partial WPI while keeping interference with limited visibility. The simulation model that is solely based on experimental facts, that satisfies Einstein's criterion of local causality and that does not rely on any concept of quantum theory or of probability theory, reproduces quantitatively the averages calculated from quantum theory. Our results prove that it is possible to give a particle-only description of the experiment, that one can have full WPI even if D=0, V=1 and therefore that the relation V2+D2≤1V^2+D^2\le 1 cannot be regarded as quantifying the notion of complementarity.Comment: Physica E, in press; see also http://www.compphys.ne

    Horizon Mass Theorem

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    A new theorem for black holes is found. It is called the horizon mass theorem. The horizon mass is the mass which cannot escape from the horizon of a black hole. For all black holes: neutral, charged or rotating, the horizon mass is always twice the irreducible mass observed at infinity. Previous theorems on black holes are: 1. the singularity theorem, 2. the area theorem, 3. the uniqueness theorem, 4. the positive energy theorem. The horizon mass theorem is possibly the last general theorem for classical black holes. It is crucial for understanding Hawking radiation and for investigating processes occurring near the horizon.Comment: A new theorem for black holes is establishe

    A Penetration Depth Study on Li2Pd3B and Li2Pt3B

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    In this paper we present a penetration depth study on the newly discovered superconductors Li2_2Pd3_3B and Li2_2Pt3_3B. Surprisingly, the low-temperature penetration depth f(T)f(T) demonstrates distinct behavior in these two isostructural compounds. In Li2_2Pd3_3B, f(T)f(T) follows an exponential decay and can be nicely fitted by a two-gap BCS superconducting model with a small gap δ1=3.2\delta_1=3.2K and a large gap δ2=11.5\delta_2=11.5K. However, linear temperature dependence of f(T)f(T) is observed in Li2_2Pt3_3B below 0.3TcT_c, giving evidence of line nodes in the energy gap.Comment: 2 pages, submitted to LT2
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