1,646 research outputs found
Atomically Sharp, Closed Bilayer Phosphorene Edges by Self-Passivation
Two-dimensional (2D) crystals' edge structures not only influence their
overall properties but also dictate their formation due to edge-mediated
synthesis and etching processes. Edges must be carefully examined because they
often display complex, unexpected features at the atomic scale, such as
reconstruction, functionalization, and uncontrolled contamination. Here, we
examine atomic-scale edge structures and uncover reconstruction behavior in
bilayer phosphorene. We use in situ transmission electron microscopy (TEM) of
phosphorene/graphene specimens at elevated temperatures to minimize surface
contamination and reduce e-beam damage, allowing us to observe intrinsic edge
configurations. Bilayer zigzag (ZZ) edge was found the most stable edge
configuration under e-beam irradiation. Through first-principles calculations
and TEM image analysis under various tilting and defocus conditions, we find
that bilayer ZZ edges undergo edge reconstruction and so acquire closed,
self-passivated edge configurations. The extremely low formation energy of the
closed bilayer ZZ edge and its high stability against e-beam irradiation are
confirmed by first-principles calculations. Moreover, we fabricate bilayer
phosphorene nanoribbons with atomically-sharp closed ZZ edges. The identified
bilayer ZZ edges will aid in the fundamental understanding of the synthesis,
degradation, reconstruction, and applications of phosphorene and related
structures.Comment: 22 pages, 5 figure
Motivations and locational factors of FDI in CIS countries: Empirical evidence from South Korean FDI in Kazakhstan, Russia, and Uzbekistan
Considering the growing significance of Eurasian economic ties because of
South Korea s New Northern Policy and Russia s New Eastern Policy, this study
investigates the motivations and locational factors of South Korean foreign
direct investment (FDI) in three countries in the Commonwealth of Independent
States (CIS: Kazakhstan, Russia, and Uzbekistan) by employing panel analysis
(pooled ordinary least squares (OLS), fixed effects, random effects) using data
from 1993 to 2017. The results show the positive and significant coefficients
of GDP, resource endowments, and inflation. Unlike conventional South Korean
outward FDI, labour-seeking is not defined as a primary purpose. Exchange
rates, political rights, and civil liberties are identified as insignificant.
The authors conclude that South Korean FDI in Kazakhstan, Russia, and
Uzbekistan is associated with market-seeking (particularly in Kazakhstan and
Russia) and natural resource-seeking, especially the former. From a policy
perspective, our empirical evidence suggests that these countries host
governments could implement mechanisms to facilitate the movement of goods
across regions and countries to increase the attractiveness of small local
markets. The South Korean government could develop financial support and risk
sharing programmes to enhance natural resource-seeking investments and mutual
exchange programmes to overcome the red syndrome complex in South Korean
society
Flattening a trapped atomic gas using a programmable optical potential in a feedback loop
We present a method for producing a flat, large-area Fermi gas of Li with
a uniform area density. The method uses a programmable optical potential within
a feedback loop to flatten the in-plane trapping potential for atoms. The
optical potential is generated using a laser beam, whose intensity profile is
adjusted by a spatial light modulator and optimized through measurements of the
density distribution of the sample. The resulting planar sample exhibits a
uniform area density within a region of about 480 m in diameter and the
standard deviation of the trap bottom potential is estimated to be 6.1 nK, which is less than 20 of the transverse confinement energy.
We discuss a dimensional crossover toward 2D regime by reducing the number of
atoms in the planar trap, including the effect of the spatial variation of the
transverse trapping frequency in the large-area sample.Comment: 8 pages, 6 figure
Implementation of the submarine diving simulation in a distributed environment
ABSTRACTTo implement a combined discrete event and discrete time simulation such as submarine diving simulation in a distributed environment, e.g., in the High Level Architecture (HLA)/Run-Time Infrastructure (RTI), a HLA interface, which can easily connect combined models with the HLA/RTI, was developed in this study. To verify the function and performance of the HLA interface, it was applied to the submarine dive scenario in a distributed environment, and the distributed simulation shows the same results as the stand-alone simulation. Finally, by adding a visualization model to the simulation and by editing this model, we can confirm that the HLA interface can provide user-friendly functions such as adding new model and editing a model
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The Correlation Between Electrodiagnostic Results and Ultrasonographic Findings in the Severity of Carpal Tunnel Syndrome in Females
Objective: To determine which ultrasonographic measurement can be used as an indicator reflecting the severity of carpal tunnel syndrome (CTS), by comparing electrodiagnostic results with ultrasonographic measurements in females. Many previous studies have tried to reveal that the ultrasonography (US) can possibility be used for diagnosis and severity of CTS. However, the criteria are different by gender. Thus far, there have been many efforts towards providing patients with a CTS diagnosis and severity prediction using US, but studies’ results are still unclear due to lack of data on gender differences. Methods: We collected data from 54 female patients. We classified the severity of CTS according to electrodiagnostic results. Ultrasonographic measurements included proximal and distal cross-sectional areas of the median nerve and carpal tunnel. Results: The severity by electrodiagnostic results statistically correlated to the proximal cross-sectional area (CSA) of the median nerve and carpal tunnel. However, there was no relationship between the proximal and distal nerve/tunnel indexes and the severity by electrodiagnostic results. Conclusion: In female patients with CTS, the proximal CSAs of the median nerve and carpal tunnel increase. They correlate with the severity by electrodiagnostic findings. The CSA of the proximal median nerve could be particularly used as a predictor of the severity of CTS in female patients. However, the nerve/tunnel index is constant, irrespective of the severity of CTS
Automatic generation of equations of motion for multibody system in discrete event simulation framework
AbstractIn this paper, the development of a simulation program that can automatically generate equations of motion for mutibody systems in the discrete event simulation framework is presented. The need to analyze the dynamic response of mechanical systems that are under event triggered conditions is increasing. General mechanical systems can be defined as multibody systems that are collections of interconnected rigid bodies, consistent with various types of joints that limit the relative motion of pairs of bodies. For complex multibody systems, a systematic approach is required to efficiently set up the mathematical models. Therefore, a dynamics kernel was developed to automatically generate the equations of motion for multibody systems based on multibody dynamics. The developed dynamics kernel also provides the numerical solver for the dynamic analysis of multibody systems. The general multibody dynamics kernel cannot deal with discontinuous state variables, event triggered conditions, and state triggered conditions, though. To enable it to deal with multibody systems in discontinuous environments, the multibody dynamics kernel was integrated into a discrete event simulation framework, which was developed based on the discrete event system specification (DEVS) formalism. DEVS formalism is a modular and hierarchical formalism for modeling and analyzing systems under event triggered conditions, which are described by discontinuous state variables. To verify the developed program, it was applied to an block-lifting and transport simulation, and dynamic analysis of the system is carried out
The role of cap-assisted endoscopy and its future implications
Cap-assisted endoscopy refers to a procedure in which a short tube made of a polymer (mostly transparent) is attached to the distal tip of the endoscope to enhance its diagnostic and therapeutic capabilities. It is reported to be particularly useful in: (1) minimizing blind spots during screening colonoscopy, (2) providing a constant distance from a lesion for clear visualization during magnifying endoscopy, (3) accurately assessing the size of various gastrointestinal lesions, (4) preventing mucosal injury during foreign body removal, (5) securing adequate workspace in the submucosal space during endoscopic submucosal dissection or third space endoscopy, (6) providing an optimal approach angle to a target, and (7) suctioning mucosal and submucosal tissue with negative pressure for resection or approximation. Here, we review various applications of attachable caps in diagnostic and therapeutic endoscopy and their future implications
Robust Adaptive Depth Control of Hybrid Underwater Glider in Vertical Plane
Hybrid underwater glider (HUG) is an advanced autonomous underwater vehicle with propellers capable of sustainable operations for many months. Under the underwater disturbances and parameter uncertainties, it is difficult that the HUG coordinates with the desired depth in a robust manner. In this study, a robust adaptive control algorithm for the HUG is proposed. In the descend and ascend periods, the pitch control is designed using backstepping technique and direct adaptive control. When the vehicle approaches the target depth, the surge speed control using adaptive control combined with the pitch control is used to keep the vehicle at the desired depth with a constant cruising speed in the presence of the disturbances. The stability of the proposed controller is verified by using the Lyapunov theorem. Finally, the computer simulation using the numerical method is conducted to show the effectiveness of the proposed controller for a hybrid underwater glider system
Inhibitory effect of fucoidan on TNF-α-induced inflammation in human retinal pigment epithelium cells
Sargassum horneri (S. horneri) is a brown seaweed that contains a fucose-rich sulfated polysaccharide called fucoidan and is known to possess beneficial bioactivities, such as anti-inflammatory, antiviral, antioxidative, and antitumoral effects. This study aimed to determine the anti-inflammatory effects of AB_SH (hydrothermal extracts from S. horneri) and its bioactive compound (fucoidan) against tumor necrosis factor alpha (TNF-α)-induced inflammation in human retinal pigment epithelial (RPE) cells. AB_SH did not exhibit any cytotoxicity, and it decreased the mRNA expression of interleukin (IL)-6 and IL-8 and the production of the cytokines IL-6 and TNF-α. It also suppressed the expression levels of phosphorylated nuclear factor kappa B (NF-κB) and mitogen-activated protein kinases (MAPKs), including c-Jun amino-terminal kinases (JNK), p38 protein kinases (p38), and extracellular signal-regulated kinase (ERK) proteins, suggesting that AB_SH inhibits activation of the NF-kB/MAPK signaling pathway. Since fucoidan was identified in the composition analysis of AB_SH, it was additionally shown to be required for its anti-inflammatory effects in TNF-α-stimulated human RPE cells. In line with the AB_SH results, fucoidan reduced the mRNA levels of IL-6, IL-1ß, and IL-8 and production of the cytokines IL-6, TNF-α, and IL-8 through the downregulation of the NF-kB/MAPK signaling pathway in a dose-dependent manner. Collectively, the ability of AB_SH from S. horneri hydrothermal extracts to reduce inflammation indicates that it may be a good functional ingredient for managing ocular disorders
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