2015
DOI: 10.1007/s10092-015-0146-z
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The common (P, Q) generalized reflexive and anti-reflexive solutions to $$AX=B$$ A X = B and $$XC=D$$ X C = D

Abstract: In this paper, we establish some conditions for the existence and the representations for the common (P, Q) generalized reflexive and anti-reflexive solutions of matrix equations AX = B and XC = D, where P and Q are two generalized reflection matrices. Moreover, in corresponding solution set of the equations, the explicit expression of the nearest matrix to a given matrix in the Frobenius norm has been presented.

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Cited by 95 publications
(140 citation statements)
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“…The application of the magnetic field causes the degeneracy of the |±m J > levels to be lifted, and the QTM effects to be suppressed, to a certain extent. This quenching of the QTM results in the observation of field‐induced SMM behaviour, with two relaxation processes, as reported earlier , . A subtle difference in the axial B k 0 parameters ( 1 > 2 ) induces larger magnetic anisotropy and barrier heights for complex 1 (see Table S6).…”
Section: Resultssupporting
confidence: 66%
“…The application of the magnetic field causes the degeneracy of the |±m J > levels to be lifted, and the QTM effects to be suppressed, to a certain extent. This quenching of the QTM results in the observation of field‐induced SMM behaviour, with two relaxation processes, as reported earlier , . A subtle difference in the axial B k 0 parameters ( 1 > 2 ) induces larger magnetic anisotropy and barrier heights for complex 1 (see Table S6).…”
Section: Resultssupporting
confidence: 66%
“…[13][14][15][16] Unfortunately, poor conductivity and structural collapse are still severe weakness that limit full electrochemical reactions, resulting in fast capacity decay. Many approaches, such as controlling nanostructures [17][18][19][20] and synthesizing MMO/Ni substrates [21][22][23] and MMO/carbon hybrids [24][25][26] have been developed to further improve their electrochemical performance.…”
Section: Introductionmentioning
confidence: 99%
“…[37] Binder free 3D composite electrodes that use carbon cloth (CC) or textile as a template for depositing the active materials have been very popular. [38] Liu et al…”
Section: Compressible/bendable Electrodes (Cbes) Based On 3d Bulk Matmentioning
confidence: 99%