Integral theorems for monogenic functions in commutative algebras

Abstract: Let $\mathbb{A}n^m$ be an arbitrary $n$-dimensional commutative associative algebra over the field of complex numbers with $m$ idempotents. Let $e_1=1,e_2,\ldots,e_k$ with $2\leq k\leq 2n$ be elements of $\mathbb{A}_n^m$ which are linearly independent over the field of real numbers. We consider monogenic (i.e. continuous and differentiable in the sense of Gateaux) functions of the variable $\sum{j=1}^k x_j\,e_j$, where $x_1,x_2,\ldots,x_k$ are real, and we prove curvilinear analogues of the Cauchy integral theorem, the Morera theorem and the Cauchy integral formula in $k$-dimensional ($2\leq k\leq 2n$) real subset of the algebra $\mathbb{A}_n^m$. The present article is generalized of the author's paper [1], where mentioned results are obtained for $k=3$.