380 research outputs found
Operation of BGO with SiPM readout at dry ice and liquid nitrogen temperatures
The light yield and decay constant of BGO were measured at both dry ice and
liquid nitrogen temperatures using two SiPMs directly coupled to a
cm cubic BGO crystal. With the measured light yield
(5.20.3 PE/keV at dry ice temperature and 10.50.4 PE/keV at liquid
nitrogen temperature) and decay constants, potential applications of BGO in
ToF-PET and SPECT were discussed
Large-volume FIB-SEM 3D reconstruction: An effective method for characterizing pore space of lacustrine shales
Focused ion beam scanning electron microscopy (FIB-SEM) is a commonly used three-dimensional (3D) pore-network reconstruction method for shales due to its unique capability in imaging nano-scale pores. However, it has been found that for pore space of lacustrine shales with strongly heterogeneous pore structures, the conventional FIB-SEM 3D models usually with dimensions of 10 μm × 10 μm × 10 μm cannot adequately characterize the pore structures as the representative element volume required is much larger than the FIB models. Here, we propose to utilize large volume FIB-SEM (LV-FIB-SEM) 3D models to resolve this challenge. The LV-FIB-SEM model has a significant enhancement in the model size compared with the commonly used conventional FIB-SEM models and a much higher spatial resolution than non-synchrotron nano X-ray CT models for similar imaging sample sizes. With 75 μm × 65 μm × 60 μm as predesigned reconsruction size, after image processing two LV-FIB-SEM 3D models with sizes of 73.56 μm × 38.13 μm × 52.59 μm and 74.01 μm × 43.05 μm × 42.00 μm and model resolution of 30 nm were reconstructed and quantitatively analyzed. When use the conventional FIB-SEM models of 10 μm × 10 μm × 10 μm, the relative deviations between the porosities derived from 100 stochastic models and the average porosity for the two samples studied are −41.13% ∼ +87.31% and −51.66% ∼ +56.05%, respectively, indicating that such small models are not representative of the actual pore structure of the shales investigated. When the model sizes have been increased by 96 times volumetrically, the probabilities of matching average porosities for the two samples increase from 13% to 86% and from 12% to 100%, respectively. This research demonstrates that the upsizing of the FIB-SEM models enables an effective improvement on the representativeness of shale pore structures characterized. It is recommended that LV-FIB-SEM 3D reconstruction be employed to study pore space of lacustrine shales with strongly heterogeneous pore structures, which would enable a more accurate characterization and evaluation of reservoirs for shale oil exploration and development
Prospect of undoped inorganic crystals at 77 Kelvin for low-mass dark matter search at Spallation Neutron Source
Investigated in this work were sensitivities of a prototype detector for the
detection of low-mass dark matter particles produced at the Spallation Neutron
Source at the Oak Ridge National Laboratory in two years of data taking. The
presumed prototype consisted of 10 kg undoped CsI or NaI scintillation crystals
directly coupled with SiPM arrays operated at 77 K. Compared to the COHERENT
CsI(Na) detector, a much higher light yield was assumed for the prototype. An
experiment with a cylindrical 1~kg undoped CsI crystal coupled directly to two
photomultiplier tubes at about 77~K was conducted as the first step to verify
the idea. A light yield of photoelectrons per keV
electron-equivalent was achieved. This eliminated the concern of self light
absorption in large crystals raised in some of the early studies.Comment: 12 pages, 18 figure
Contamination of silica surfaces: impact on water-CO2-quartz and glass contact angle measurements
CO2-wettability of sandstones is a key variable which determines structural and residual trapping capacities and strongly influences multi-phase fluid dynamics in the rock. An increasing number of researchers has now estimated this wettability by conducting contact angle measurements on quartz, however, there is a large uncertainty associated with the reported data. We demonstrate clearly that the main factor which leads to this broad data spread is due to surface contamination. It is clear that typically inappropriate cleaning methods were used which resulted in artificially high contact angle measurements. We used surface cleaning methods typically prescribed in the surface chemistry community and found that the water contact angle θ on a clean quartz substrate is low, 0–30°, and that θ increases with pressure. We conclude that quartz is strongly water-wet at high pressure conditions
UAV 3-D path planning based on MOEA/D with adaptive areal weight adjustment
Unmanned aerial vehicles (UAVs) are desirable platforms for time-efficient
and cost-effective task execution. 3-D path planning is a key challenge for
task decision-making. This paper proposes an improved multi-objective
evolutionary algorithm based on decomposition (MOEA/D) with an adaptive areal
weight adjustment (AAWA) strategy to make a tradeoff between the total flight
path length and the terrain threat. AAWA is designed to improve the diversity
of the solutions. More specifically, AAWA first removes a crowded individual
and its weight vector from the current population and then adds a sparse
individual from the external elite population to the current population. To
enable the newly-added individual to evolve towards the sparser area of the
population in the objective space, its weight vector is constructed by the
objective function value of its neighbors. The effectiveness of MOEA/D-AAWA is
validated in twenty synthetic scenarios with different number of obstacles and
four realistic scenarios in comparison with other three classical methods.Comment: 23 pages,11 figure
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