2017-05-25T02:45:45Z
http://jlta.iauctb.ac.ir/?_action=export&rf=summon&issue=110011
Journal of Linear and Topological Algebra (JLTA)
J. Linear Topol. Algebr
2252-0201
2252-0201
2014
03
04
On (σ, τ)-module extension Banach algebras
M
Fozouni
Let A be a Banach algebra and X be a Banach A-bimodule. In this paper, we dene a new product on A X and generalize the module extension Banach algebras. We obtain characterizations of Arens regularity, commutativity, semisimplity, and study the ideal structure and derivations of this new Banach algebra.
Banach algebra
module extension
Ideal
derivation
Arens regular
2014
12
01
185
194
http://jlta.iauctb.ac.ir/article_510045_bfb8f87306cc7d536479e9ca016263f7.pdf
Journal of Linear and Topological Algebra (JLTA)
J. Linear Topol. Algebr
2252-0201
2252-0201
2014
03
04
Soft regular generalized b-closed sets in soft topological spaces
S. M.
Al-Salem
The main purpose of this paper is to introduce and study new classes of soft
closed sets like soft regular generalized b-closed sets in soft topological spaces (brie
y soft
rgb-closed set) Moreover, soft rg-closed, soft gpr-closed, soft gb-closed, soft gsp-closed, soft
g-closed, soft gb-closed, and soft sgb-closed sets in soft topological spaces are introduced in
this paper and we investigate the relations between soft rgb-closed set and the associated soft
sets. Also, the concept of soft semi-regularization of soft topology is introduced and studied
their some properties. We introduce these concepts which are dened over an initial universe
with a xed set of parameters.
Soft set
soft g-closed
soft rg-closed
soft b-closed
2014
12
01
196
204
http://jlta.iauctb.ac.ir/article_510050_4ac0956f45f51114ac59f26782eb7c83.pdf
Journal of Linear and Topological Algebra (JLTA)
J. Linear Topol. Algebr
2252-0201
2252-0201
2014
03
04
OD-characterization of U_3 (9) and its group of automorphisms
P
Nosratpour
Let L = U3(9) be the simple projective unitary group in dimension 3 over a eld with 92 elements. In this article, we classify groups with the same order and degree pattern as an almost simple group related to L. Since Aut(L) = Z4 hence almost simple groups related to L are L, L : 2 or L : 4. In fact, we prove that L, L : 2 and L : 4 are OD-characterizable.
Finite simple group
OD-characterization
group of lie type
2014
12
01
205
209
http://jlta.iauctb.ac.ir/article_510046_ea08b44affe36d029961b12580fb0be4.pdf
Journal of Linear and Topological Algebra (JLTA)
J. Linear Topol. Algebr
2252-0201
2252-0201
2014
03
04
On φ-Connes amenability of dual Banach algebras
A
Mahmoodi
Let φ be a w
-continuous homomorphism from a dual Banach algebra to C.
The notion of φ-Connes amenability is studied and some characterizations is given. A type
of diagonal for dual Banach algebras is dened. It is proved that the existence of such a
diagonal is equivalent to φ-Connes amenability. It is also shown that φ-Connes amenability
is equivalent to so-called φ-splitting of a certain short exact sequence.
Dual Banach algebra
φ-Connes amenability
φ-injectivity
2014
12
01
211
217
http://jlta.iauctb.ac.ir/article_510047_337587854110ff69f293c30afd82764b.pdf
Journal of Linear and Topological Algebra (JLTA)
J. Linear Topol. Algebr
2252-0201
2252-0201
2014
03
04
Fixed point theorems for α-ψ-ϕ-contractive integral type mappings
Z
Badehian
M. S.
Asgari
In this paper, we introduce a new concept of - -ϕ-contractive integral type mappings and establish some new xed point theorems in complete metric spaces.
fixed point
α-ψ-ϕ-contractive integral type mapping
complete metric space
2014
12
01
219
230
http://jlta.iauctb.ac.ir/article_510048_bf7090acee18525c3ae2e4653f33bf53.pdf
Journal of Linear and Topological Algebra (JLTA)
J. Linear Topol. Algebr
2252-0201
2252-0201
2014
03
04
Steensen method for solving nonlinear matrix equation X+A^T X^(-1) A=Q
A
Nazari
Kh
Sayehvand
M
Rostami
In this article we study Steensen method to solve nonlinear matrix equation
X+A^T X^(-1) A=Q, when A is a normal matrix. We establish some conditions
that generate a sequence of positive denite matrices which converges to solution
of this equation.
Fixed point method
Steensen method
Nonlinear matrix equations
2014
12
01
231
247
http://jlta.iauctb.ac.ir/article_510049_12133f3cde7afd2038f6f49d52566c61.pdf