A determinantal formula for the exterior powers of the polynomial ring

AbstractAn explicit description of the ring of the rational polynomials in r indeterminates as a representation of the Lie algebra of the endomorphisms of the k-th exterior power of a countably infinite-dimensional vector space is given. Our description is based on results by Laksov and Throup concerning the symmetric structure of the exterior power of a polynomial ring. Our results are based on approximate versions of the vertex operators occurring in the celebrated bosonic vertex representation, due to Date, Jimbo, Kashiwara and Miwa, of the Lie algebra of all matrices of infinite size, whose entries are all zero but finitely many.

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Pembentukan Lapangan Faktor dari Suatu Daerah Integral

Jurnal Natural ◽

10.30862/jn.v8i2.340 ◽

2012 ◽

Vol 8 (2) ◽

Author(s):

Tri Widjajanti ◽

Dahlia Ramlan ◽

Rium Hilum

Keyword(s):

Polynomial Ring ◽

Integral Domain ◽

Rational Numbers ◽

Ring Of Integers ◽

Binary Operations

Ring of integers under the addition and multiplication as integral domain can be imbedded to the field of rational numbers. In this paper we make  a construction such that any integral domain can be  a field of quotient. The construction contains three steps. First, we define element of field F from elements of integral domain D. Secondly, we show that the binary operations in fare well-defined. Finally, we prove that  f : D ® F is an isomorphisma. In this case, the polynomial ring F[x] as the integral domain can be imbedded to the field of quotient.

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On Stanley Depths of Certain Monomial Factor Algebras

Canadian Mathematical Bulletin ◽

10.4153/cmb-2015-001-x ◽

2015 ◽

Vol 58 (2) ◽

pp. 393-401

Author(s):

Zhongming Tang

Keyword(s):

Polynomial Ring ◽

Monomial Ideal ◽

Primary Decomposition ◽

Factor Algebra ◽

Stanley Depth ◽

Stanley Conjecture ◽

Stanley Decomposition

AbstractLet S = K[x1 , . . . , xn] be the polynomial ring in n-variables over a ûeld K and I a monomial ideal of S. According to one standard primary decomposition of I, we get a Stanley decomposition of the monomial factor algebra S/I. Using this Stanley decomposition, one can estimate the Stanley depth of S/I. It is proved that sdepthS(S/I) ≤ sizeS(I). When I is squarefree and bigsizeS(I) ≤ 2, the Stanley conjecture holds for S/I, i.e., sdepthS(S/I) ≥ depthS(S/I).

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The close relation between border and Pommaret marked bases

Collectanea mathematica ◽

10.1007/s13348-021-00313-w ◽

2021 ◽

Author(s):

Cristina Bertone ◽

Francesca Cioffi

Keyword(s):

Finite Order ◽

Polynomial Ring ◽

Group Actions ◽

Close Relation ◽

Open Covering ◽

Order Ideal ◽

Lower Dimension ◽

Hilbert Schemes ◽

Affine Spaces ◽

The Ideal

AbstractGiven a finite order ideal $${\mathcal {O}}$$ O in the polynomial ring $$K[x_1,\ldots , x_n]$$ K [ x 1 , … , x n ] over a field K, let $$\partial {\mathcal {O}}$$ ∂ O be the border of $${\mathcal {O}}$$ O and $${\mathcal {P}}_{\mathcal {O}}$$ P O the Pommaret basis of the ideal generated by the terms outside $${\mathcal {O}}$$ O . In the framework of reduction structures introduced by Ceria, Mora, Roggero in 2019, we investigate relations among $$\partial {\mathcal {O}}$$ ∂ O -marked sets (resp. bases) and $${\mathcal {P}}_{\mathcal {O}}$$ P O -marked sets (resp. bases). We prove that a $$\partial {\mathcal {O}}$$ ∂ O -marked set B is a marked basis if and only if the $${\mathcal {P}}_{\mathcal {O}}$$ P O -marked set P contained in B is a marked basis and generates the same ideal as B. Using a functorial description of these marked bases, as a byproduct we obtain that the affine schemes respectively parameterizing $$\partial {\mathcal {O}}$$ ∂ O -marked bases and $${\mathcal {P}}_{\mathcal {O}}$$ P O -marked bases are isomorphic. We are able to describe this isomorphism as a projection that can be explicitly constructed without the use of Gröbner elimination techniques. In particular, we obtain a straightforward embedding of border schemes in affine spaces of lower dimension. Furthermore, we observe that Pommaret marked schemes give an open covering of Hilbert schemes parameterizing 0-dimensional schemes without any group actions. Several examples are given throughout the paper.

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Free subgroups in k(x 1,... ,x n )(X;σ) and k(x,y)(k;σ)

Forum Mathematicum ◽

10.1515/forum-2017-0248 ◽

2019 ◽

Vol 31 (3) ◽

pp. 769-777

Author(s):

Jairo Z. Gonçalves

Keyword(s):

Normal Subgroup ◽

Polynomial Ring ◽

Multiplicative Group ◽

Free Subgroup ◽

Laurent Polynomials ◽

Skew Polynomial Ring ◽

Ring Of Fractions ◽

Skew Polynomial ◽

Free Subgroups ◽

Mild Restriction

Abstract Let k be a field, let {\mathfrak{A}_{1}} be the k-algebra {k[x_{1}^{\pm 1},\dots,x_{s}^{\pm 1}]} of Laurent polynomials in {x_{1},\dots,x_{s}} , and let {\mathfrak{A}_{2}} be the k-algebra {k[x,y]} of polynomials in the commutative indeterminates x and y. Let {\sigma_{1}} be the monomial k-automorphism of {\mathfrak{A}_{1}} given by {A=(a_{i,j})\in GL_{s}(\mathbb{Z})} and {\sigma_{1}(x_{i})=\prod_{j=1}^{s}x_{j}^{a_{i,j}}} , {1\leq i\leq s} , and let {\sigma_{2}\in{\mathrm{Aut}}_{k}(k[x,y])} . Let {D_{i}} , {1\leq i\leq 2} , be the ring of fractions of the skew polynomial ring {\mathfrak{A}_{i}[X;\sigma_{i}]} , and let {D_{i}^{\bullet}} be its multiplicative group. Under a mild restriction for {D_{1}} , and in general for {D_{2}} , we show that {D_{i}^{\bullet}} , {1\leq i\leq 2} , contains a free subgroup. If {i=1} and {s=2} , we show that a noncentral normal subgroup N of {D_{1}^{\bullet}} contains a free subgroup.

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Differential resolvents of minimal order and weight

International Journal of Mathematics and Mathematical Sciences ◽

10.1155/s016117120440235x ◽

2004 ◽

Vol 2004 (54) ◽

pp. 2867-2893

Author(s):

John Michael Nahay

Keyword(s):

Upper Bound ◽

Minimal Order ◽

Determinantal Formula ◽

Differential Field ◽

Nonzero Coefficient ◽

Univariate Polynomial ◽

Linear Differential ◽

Indicial Equation

We will determine the number of powers ofαthat appear with nonzero coefficient in anα-power linear differential resolvent of smallest possible order of a univariate polynomialP(t)whose coefficients lie in an ordinary differential field and whose distinct roots are differentially independent over constants. We will then give an upper bound on the weight of anα-resolvent of smallest possible weight. We will then compute the indicial equation, apparent singularities, and Wronskian of the Cockleα-resolvent of a trinomial and finish with a related determinantal formula.

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Explicit determinantal formula for a class of banded matrices

Open Mathematics ◽

10.1515/math-2020-0100 ◽

2020 ◽

Vol 18 (1) ◽

pp. 1227-1229

Author(s):

Yerlan Amanbek ◽

Zhibin Du ◽

Yogi Erlangga ◽

Carlos M. da Fonseca ◽

Bakytzhan Kurmanbek ◽

...

Keyword(s):

Short Note ◽

Determinantal Formula ◽

Banded Matrices

Abstract In this short note, we provide a brief proof for a recent determinantal formula involving a particular family of banded matrices.

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THE NUMBER OF ROOTS OF A POLYNOMIAL SYSTEM

Bulletin of the Australian Mathematical Society ◽

10.1017/s0004972720001197 ◽

2020 ◽

pp. 1-10

Author(s):

NGUYEN CONG MINH ◽

LUU BA THANG ◽

TRAN NAM TRUNG

Keyword(s):

Polynomial Ring ◽

Polynomial System ◽

Combinatorial Nullstellensatz ◽

Roots Of A Polynomial

Abstract Let I be a zero-dimensional ideal in the polynomial ring $K[x_1,\ldots ,x_n]$ over a field K. We give a bound for the number of roots of I in $K^n$ counted with combinatorial multiplicity. As a consequence, we give a proof of Alon’s combinatorial Nullstellensatz.

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Determinantal formula for generalized riffle shuffle

Discrete Mathematics ◽

10.1016/j.disc.2021.112599 ◽

2021 ◽

Vol 344 (12) ◽

pp. 112599

Author(s):

Fumihiko Nakano ◽

Taizo Sadahiro

Keyword(s):

Determinantal Formula

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A remark on skew factorization and new 𝔽4-linear codes

Discrete Mathematics Algorithms and Applications ◽

10.1142/s1793830922500112 ◽

2021 ◽

Author(s):

Padmapani Seneviratne

Keyword(s):

Polynomial Ring ◽

Linear Codes ◽

Skew Polynomial Ring ◽

Complete Set ◽

New Codes ◽

Skew Factorization ◽

Skew Polynomial ◽

New Formula

Nine new [Formula: see text] linear codes with lengths [Formula: see text] and [Formula: see text] that improve previously best known parameters are constructed. By modifying these codes, another 17 new codes are obtained. It is conjectured that the complete set of factors of [Formula: see text] can be derived from the factors of [Formula: see text] for even values of [Formula: see text] in the skew polynomial ring [Formula: see text]. It is further shown that the [Formula: see text] code obtained is linearly complementary dual.

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