Communications in Mathematical Research CMR Volume 26, Number 4

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Volume 26, Number 4

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A Class of Left $E$-Adequate Semigroups

Yonghua Li & Yong He

Commun. Math. Res., 26 (2010), pp. 289-303.

Preview Purchase PDF 1102 22075 Abstract

Abstract

In this paper we establish a construction of a class of left $E$-adequate semigroups by using semilattices of cancellative monoids and fundamental left $E$-adequate semigroups. We first introduce concepts of type $µ^+$ ($µ^∗$, $µ$) abundant semigroups and type $µ^+$ left $E$-adequate semigroups. In fact, regular semigroups are type $µ^+$ abundant semigroups and inverse semigroups are type $µ^+$ left $E$-adequate semigroups. Next, we construct a special kind of algebras called $E^+$-product. It is proved that every $E^+$-product is a type $µ^+$ left $E$-adequate semigroup, and every type $µ^+$ left $E$-adequate semigroup is isomorphic to an $E^+$-product of a semilattice of cancellative monoids with a fundamental left $E$-adequate semigroup. Finally, as a corollary of the main result, it is deduced that every inverse semigroup is isomorphic to an $E^+$-product of a Clifford semigroup by a fundamental inverse semigroup.

Little Hankel Operators on the Weighted Bergman Space of the Unit Ball

Kan Zhang, Yufeng Lu & Chaomei Liu

Commun. Math. Res., 26 (2010), pp. 304-312.

Preview Purchase PDF 1080 21964 Abstract

Abstract

In this paper we mainly consider little Hankel operators with square-integrable symbols on the weighted Bergman spaces of the unit ball. We obtain that Schatten class of little Hankel operators is equivalent to Schatten class of positive Toeplitz operators under the conditions that $SMO(f) ∈ L^{\frac{p}{2}}(B_n, dλ)$ and $2 ≤ p < ∞,$ which is very important to research the relation between Toeplitz operators and little Hankel operators.

On $π$-Regularity of General Rings

Weixing Chen & Shuying Cui

Commun. Math. Res., 26 (2010), pp. 313-320.

Preview Purchase PDF 1091 21934 Abstract

Abstract

A general ring means an associative ring with or without identity. An idempotent $e$ in a general ring $I$ is called left (right) semicentral if for every $x ∈ I$, $xe = exe (ex = exe)$. And $I$ is called semiabelian if every idempotent in $I$ is left or right semicentral. It is proved that a semiabelian general ring $I$ is $π$-regular if and only if the set $N(I)$ of nilpotent elements in $I$ is an ideal of $I$ and $I/N(I)$ is regular. It follows that if $I$ is a semiabelian general ring and $K$ is an ideal of $I$, then $I$ is $π$-regular if and only if both $K$ and $I/K$ are $π$-regular. Based on this we prove that every semiabelian GVNL-ring is an SGVNL-ring. These generalize several known results on the relevant subject. Furthermore, we give a characterization of a semiabelian GVNL-ring.

The Factorization Method to Solve a Class of Inverse Potential Scattering Problems for Schrödinger Equations

Yuan Li & Fuming Ma

Commun. Math. Res., 26 (2010), pp. 321-336.

Preview Purchase PDF 1061 21588 Abstract

Abstract

This paper is concerned with the inverse scattering problems for Schrödinger equations with compactly supported potentials. For purpose of reconstructing the support of the potential, we derive a factorization of the scattering amplitude operator $A$ and prove that the ranges of $(A^∗A) ^{1/4}$ and $G$ which maps more general incident fields than plane waves into the scattering amplitude coincide. As an application we characterize the support of the potential using only the spectral data of the operator $A$.

Practical Stability in the $p$th Mean of Stochastic Differential Equations with Discontinuous Coefficients

Xumei Chen & Yongkui Zou

Commun. Math. Res., 26 (2010), pp. 337-352.

Preview Purchase PDF 1050 21497 Abstract

Abstract

In this paper, we give sufficient conditions to analyze the practical stability in the $p$th mean of stochastic differential equations with discontinuous coefficients. The Lyapunov-like function plays an important role in analysis. Some numerical computations are carried out to illustrate the theoretical results.

Uniqueness of Meromorphic Functions Sharing One Set

Jianming Qi & Hongxun Yi

Commun. Math. Res., 26 (2010), pp. 353-360.

Preview Purchase PDF 1237 24391 Abstract

Abstract

In this paper, we study uniqueness of meromorphic functions sharing one set, and obtain some results, which improve and extend the original results.

A Note on Upper Convex Density

Jiandong Yin & Zouling Zhou

Commun. Math. Res., 26 (2010), pp. 361-368.

Preview Purchase PDF 1062 21800 Abstract

Abstract

For a self-similar set $E$ satisfying the open set condition, upper convex density is an important concept for the computation of its Hausdorff measure, and it is well known that the set of relative interior points with upper convex density 1 has a full Hausdorff measure. But whether the upper convex densities of $E$ at all the relative interior points are equal to 1? In other words, whether there exists a relative interior point of $E$ such that the upper convex density of $E$ at this point is less than 1? In this paper, the authors construct a self-similar set satisfying the open set condition, which has a relative interior point with upper convex density less than 1. Thereby, the above problem is sufficiently answered.

Existence of Anti-Periodic Solution for Differential Equations

Ning Fu

Commun. Math. Res., 26 (2010), pp. 369-374.

Preview Purchase PDF 1052 21513 Abstract

Abstract

In this paper, we discuss the anti-periodic boundary value problem for a class of first order differential equations. By using homotopy method, we obtain the conditions for the existence of anti-periodic solution for the equation under consideration. This result can be extended to higher order differential equations.

Weak Dissipative Structure for Compressible Navier-Stokes Equations

Keyan Wang

Commun. Math. Res., 26 (2010), pp. 375-384.

Preview Purchase PDF 1047 21590 Abstract

Abstract

This paper concerns the Cauchy problem for compressible Navier-Stokes equations. The weak dissipative structure is explored and a new proof for the classical solutions are shown to exist globally in time if the initial data is sufficiently small.

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