933 research outputs found
Quantum steering in a star network
In this work, we will consider the star network scenario where the central
party is trusted while all the edge parties (with a number of ) are
untrusted. Network steering is defined with an local hidden state model
which can be viewed as a special kind of local hidden variable model. Three
different types of sufficient criteria, nonlinear steering inequality, linear
steering inequality, and Bell inequality, will be constructed to verify the
quantum steering in a star network. Based on the linear steering inequality, it
is found that the network steering can be demonstrated even though the trusted
party performs a fixed measurement.Comment: 9 pages, 1 figure, comments welcom
Bis[μ-2-(benzyliminomethyl)-4-chlorophenolato]bis[chloridocopper(II)]
The title complex, [Cu2(C14H11ClNO)2Cl2], has a centrosymmetric dinuclear structure where two symmetry-related copper(II) metal centres are bridged by the O atoms of two phenoxy groups. Each copper(II) centre displays a distorted tetrahedral coordination provided by one N atom and two O atoms from two Schiff base ligands and by one Cl atom. The Cu⋯Cu separation is 3.0702 (9) Å
Characterization of mineral and pore evolution under CO2-brine-rock interaction at in-situ conditions
Herein, a method of physical modeling of CO2-brine-rock interaction and in-situ characterization of mineral and pore evolution is established. The nested preparation and installation of the same sample with different sizes could protect and keep the integrality of the millimeter-size sample in conventional high-temperature and high-pressure reactors. This paper establishes a procedure to obtain the three-dimensional in-situ comparison of minerals and pores before and after the reaction. The resolution is updated from 5-10 µ m to 10 nm, which could be helpful for modeling CO2-brine-rock interaction in unconventional tight reservoirs. This method could be applied to CO2-enhanced oil recovery as well as CO2 capture, utilization, and storage scientific research. Furthermore, it may shed light on the carbon sequestration schemes in the Chinese petroleum industry.Cited as: Wu, S., Yu, C., Hu, X., Yu, Z., Jiang, X. Characterization of mineral and pore evolution under CO2-brine-rock interaction at in-situ conditions. Advances in Geo-Energy Research, 2022, 6(2): 177-178. https://doi.org/10.46690/ager.2022.02.0
Paleoenvironment and chemostratigraphy heterogenity of the Cretaceous organic-rich shales
The Cretaceous Qingshankou Formation in the Songliao Basin is rich in shale oil resources, which has become one of the most important exploration targets of lacustrine shale oil in China. Based on X-ray fluorescence element analysis, X-ray diffraction analysis, total organic carbon, rock pyrolysis, scanning electron microscope and nitrogen adsorption, the Paleoenvironment was reconstructed by comprehensive utilization of integrated prediction error filter analysis of chemical stratigraphy, and its relationship with organic geochemistry, mineralogy and pore structure was discussed. The results indicated that the Qingshankou Formation was deposited in the environment with fresh water-brackish water, semi-deep/deep water and strong reduction. The evolution of Paleoenvironment during the deposition of Qingshankou Formation changed from bottom to top, with increasing water depth, decreasing salinity and oxygen content. Paleosalinity was positively correlated with total organic carbon, residual hydrocarbon and carbonate mineral content. From bottom to top, the contents of carbonate and chlorite decreased, while the contents of plagioclase and clay minerals increased slightly. The pores were dominated by intra-illite pores, intra-I/S mixed-layer pores and intra-pyrite pores. Some intra-plagioclase pores and calcite dissolution pores were developed, and the organic matter pores are slightly few. Nitrogen adsorption data showed that the dominate pore size was 40-53 nm. This study clarifies the Paleoenvironmental evolution of the Qingshankou Formation, and may shed lights on lacustrine shale oil accumulation and sweet-spotting.Cited as: Guan, M., Wu, S., Hou, L., Jiang, X., Ba, D., Hua, G. Paleoenvironment and chemostratigraphy heterogenity of the Cretaceous organic-rich shales. Advances in Geo-Energy Research, 2021, 5(4): 444-455, doi: 10.46690/ager.2021.04.0
The Role of Multilingual Script Systems in Face Processing
Becoming multilingual has a broad impact on cognitive abilities, especially visual processing. An important theoretical issue is whether the acquisition of distinct script systems affects face processing in an identical way, or, if not, how this acquisition may exert differential impacts on face processing. By reviewing the existing literature, we propose that Asian participants with the logographic script system differ from Western counterparts with the alphabetic script system in viewing faces. The contribution of the chapter is to identify the possible role of types of script systems in face processing mechanisms and to put forward the research direction in the future with several new methodological efforts
A Continuum Model for Dislocation Climb
Dislocation climb plays an important role in understanding plastic
deformation of metallic materials at high temperature. In this paper, we
present a continuum formulation for dislocation climb velocity based on
densities of dislocations. The obtained continuum formulation is an accurate
approximation of the Green's function based discrete dislocation dynamics
method (Gu et al. J. Mech. Phys. Solids 83:319-337, 2015). The continuum
dislocation climb formulation has the advantage of accounting for both the
long-range effect of vacancy bulk diffusion and that of the Peach-Koehler climb
force, and the two longrange effects are canceled into a short-range effect
(integral with fast-decaying kernel) and in some special cases, a completely
local effect. This significantly simplifies the calculation in the Green's
function based discrete dislocation dynamics method, in which a linear system
has to be solved over the entire system for the long-range effect of vacancy
diffusion and the long-range Peach-Koehler climb force has to be calculated.
This obtained continuum dislocation climb velocity can be applied in any
available continuum dislocation dynamics frameworks. We also present numerical
validations for this continuum climb velocity and simulation examples for
implementation in continuum dislocation dynamics frameworks
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