ordered structures
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2022 ◽  
Vol 10 (1) ◽  
pp. 1-5
Author(s):  
Hai-Tian Zhang ◽  
Xiangyi Zhang
Keyword(s):  

2021 ◽  
Vol 20 (4) ◽  
pp. 777-790
Author(s):  
Pushpendra Singh ◽  
Pathik Sahoo ◽  
Subrata Ghosh ◽  
Komal Saxena ◽  
Jhimli Sarkar Manna ◽  
...  

Author(s):  
R. Sabbagh ◽  
O. Zabeti

The main aim of the present note is to consider bounded orthomorphisms between locally solid vector lattices. We establish a version of the remarkable Zannen theorem regarding equivalence between orthomorphisms and the underlying vector lattice for the case of all bounded orthomomorphisms. Furthermore, we investigate topological and ordered structures for these classes of orthomorphisms, as well. In particular, we show that each class of bounded orthomorphisms possesses the Levi or the $AM$-properties if and only if so is the underlying locally solid vector lattice. Moreover, we establish a similar result for the Lebesgue property, as well.


2021 ◽  
Vol 34 (9) ◽  
pp. 095503
Author(s):  
Riyajul Islam ◽  
J P Borah

Abstract Material design of promising rare-earth free permanent magnet requires tailoring and controlling the intrinsic magnetic properties namely large saturation magnetization μ 0 M s, giant uniaxial magnetic anisotropy K u, and high Curie temperature T C. Based on first-principles electronic structure calculations, we present a detailed analysis for the intrinsic magnetic properties of Co x Fe1−x Ni and Co x Fe1−x NiN0.25 ordered structures. We predict an enhanced structural stability with improved K u ranging from 1.53–2.29 MJ m−3 for Co x Fe1−x NiN0.25 ordered structures, with the exception of CoNiN0.25 having planar anisotropy. Detailed analysis of the predicted large K u, based on perturbation theory and electronic structure calculations, is attributed to the cumulative effect of contribution from the increased tetragonal distortion and induced orbital distortion from the simultaneous Co substitution and interstitial N-doping. By tailoring the K u, we may create efficient and affordable PMs, bridging the gap between commonly used ferrite and high-performance Nd–Fe–B magnets.


Author(s):  
Leonid Medved ◽  
John W Weisel

Although much has been established concerning the overall structure and function of fibrinogen, much less has been known about its two αC regions, each consisting of an αC-connector and αC-domain, but new information has been accumulating. This review summarizes the state of our current knowledge of the structure and interactions of fibrinogen’s αC regions. A series of studies with isolated αC regions and their fragments demonstrated that the αC-domain forms compact ordered structures consisting of N- and C-terminal sub-domains including β sheets and suggested that the αC-connector has a poly(L-proline) type II structure. Functionally, the αC-domains interact intramolecularly with each other and with the central region of the molecule, first demonstrated by electron microscopy and then quantified by optical trap force spectroscopy. Upon conversion of fibrinogen into fibrin, the αC-domains switch from intra- to intermolecular interactions to form ordered αC polymers. The formation of αC polymers occurs mainly through the homophilic interaction between the N-terminal sub-domains; interaction between the C-terminal sub-domains and the αC-connectors also contributes to this process. Considerable evidence supports the idea that the αC-regions accelerate fibrin polymerization and affect the final structure of fibrin clots. The interactions between αC-regions are important for the mechanical properties of clots, increasing their stiffness and extensibility. Conversion of fibrinogen into fibrin results in exposure of multiple binding sites in its αC regions, providing interaction of fibrin with different proteins and cell types during hemostasis and wound healing. This heretofore mysterious part of the fibrinogen molecule is finally giving up its secrets.


2021 ◽  
Vol 24 (4) ◽  
pp. 338-347
Author(s):  
M. L. Kheifetz ◽  
V. T. Senyut ◽  
A. G. Kolmakov ◽  
B. M. Bazrov ◽  
S. A. Klimenko ◽  
...  

Application of multifractal analysis for qualitative and quantitative description of structural materials is demonstrated. This makes it possible to evaluate the system’s characteristics of structures and to characterize the processes of self-organization in the materials. Formation of friction surface structures for aluminum alloys with Al2O3 and SiC additives in the scuffing mode is considered under comparable thermodynamic conditions. The addition of SiC, in comparison with Al2O3 , is less conducive to fragmentation and increase in the frequency of seizure and rupture processes. The addition of graphite into a composite material reinforced with SiC leads to increase in the degree of non-equilibrium of the thermodynamic conditions for the formation of the structures. Additional introduction of graphite further enhances the difference between materials with additions of Al2O3 and SiC, and this leads to the formation of the least ordered structures of the friction surface.


2021 ◽  
pp. 214243
Author(s):  
B. Silva-Gaspar ◽  
R. Martinez-Franco ◽  
G. Pirngruber ◽  
A. Fécant ◽  
U. Diaz ◽  
...  

Author(s):  
Serena Gentile ◽  
Erica Del Grosso ◽  
Passa E. Pungchai ◽  
Elisa Franco ◽  
Leonard J. Prins ◽  
...  
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