共查询到20条相似文献,搜索用时 0 毫秒
1.
In this paper we prove someL
P inequalities for polynomials, wherep is any positive number. They are related to earlier inequalities due to A Zygmund, N G De Bruijn, V V Arestov, etc. A generalization
of a polynomial inequality concerning self-inversive polynomials, is also obtained. 相似文献
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J. Marshall Ash Michael Ganzburg 《Proceedings of the American Mathematical Society》1999,127(1):211-216
Let be a trigonometric polynomial of degree The problem of finding the largest value for in the inequality is studied. We find exactly provided is the conjugate of an even integer and For general we get an interval estimate for where the interval length tends to as tends to
4.
Eduard Belinsky 《Journal of Mathematical Analysis and Applications》2003,286(2):675-681
Three extremal problems for trigonometric polynomials are studied in this paper. The first was initiated by Maiorov. It relates to the trigonometric polynomials with n nonzero harmonics. The Lp-norm of the Weyl derivative is compared with the Lq-norm of the polynomial. The other two problems have appeared in the recent paper by Oswald. They deal with the polynomials of degree n. The minimum of Lp-norm with respect to the choice of phases is compared with lq-norm of its coefficients. 相似文献
5.
Let
be the collection of all polynomials of degree at most n with real coefficients that have at most m distinct complex zeros. We prove thatfor every
. This is far away from what we expect. We conjecture that the Markov factor 32·8mn above may be replaced by cmn with an absolute constant c>0. We are not able to prove this conjecture at the moment. However, we think that our result above gives the best-known Markov-type inequality for
on a finite interval when mc log n. 相似文献
6.
J. M. McDougall 《Transactions of the American Mathematical Society》2002,354(6):2341-2357
The purpose of this paper is to analyse a class of quadratic extremal problems defined on various Hilbert spaces of analytic functions, thereby generalizing an extremal problem on the Dirichlet space which was solved by S.D. Fisher. Each extremal problem considered here is shown to be connected with a system of orthogonal polynomials. The orthogonal polynomials then determine properties of the extremal function, and provide information about the existence of extremals.
7.
A. V. Moskovskii 《Mathematical Notes》1995,58(6):1355-1356
Translated fromMatematicheskie Zametki, Vol. 58, No. 6, pp. 940–941, December, 1995. 相似文献
8.
B. P. Osilenker 《Russian Mathematics (Iz VUZ)》2010,54(2):46-56
In a loaded Jacobi space with the inner product
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$
\left\langle {f,g} \right\rangle = \frac{{\Gamma (\alpha + \beta + 2)}}{{2^{\alpha + \beta + 1} \Gamma (\alpha + 1)\Gamma (\beta + 1)}}\smallint _{ - 1}^1 fg(1 - x)^\alpha (1 + x)^\beta dx + Lf(1)g(1) + Mf( - 1)g( - 1)(L,M \ge 0)
$
\left\langle {f,g} \right\rangle = \frac{{\Gamma (\alpha + \beta + 2)}}{{2^{\alpha + \beta + 1} \Gamma (\alpha + 1)\Gamma (\beta + 1)}}\smallint _{ - 1}^1 fg(1 - x)^\alpha (1 + x)^\beta dx + Lf(1)g(1) + Mf( - 1)g( - 1)(L,M \ge 0)
相似文献
9.
T. Velanga 《Linear and Multilinear Algebra》2018,66(11):2328-2348
Ideals of polynomials and multilinear operators between Banach spaces have been exhaustively investigated in the last decades. In this paper, we introduce a unified (and more general) approach and propose some lines of investigation in this new framework. Among other results, we prove a Bohnenblust–Hille inequality in this more general setting. 相似文献
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We consider different kinds of convergence of homogeneous polynomials and multilinear forms in random variables. We show that for a variety of complex random variables, the almost sure convergence of the polynomial is equivalent to that of the multilinear form, and to the square summability of the coefficients. Also, we present polynomial Khintchine inequalities for complex gaussian and Steinhaus variables. All these results have no analogues in the real case. Moreover, we study the Lp-convergence of random polynomials and derive certain decoupling inequalities without the usual tetrahedral hypothesis. We also consider convergence on “full subspaces” in the sense of Sjögren, both for real and complex random variables, and relate it to domination properties of the polynomial or the multilinear form, establishing a link with the theory of homogeneous polynomials on Banach spaces. 相似文献
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Kai-Uwe Schmidt 《Comptes Rendus Mathematique》2014,352(2):95-97
We give a solution to an extremal problem for polynomials, which asks for complex numbers α0,…,αn of unit magnitude that minimise the largest supremum norm on the unit circle for all polynomials of degree n whose k -th coefficient is either αk or −αk. 相似文献
14.
É. S. Belinskii 《Mathematical Notes》1991,49(1):10-14
Translated from Matematicheskie Zametki, Vol. 49, No. 1, pp. 12–18, January, 1991. 相似文献
15.
Let G n be the set of all real algebraic polynomials of degree at most n, positive on the interval (?1, 1) and without zeros inside the unit circle (|z| < 1). In this paper an inequality for the polynomials from the set G n is obtained. In one special case this inequality is reduced to the inequality given by B. Sendov [5] and in another special case it is reduced to an inequality between uniform norm and norm in the L 2 space for the Jacobi weight. 相似文献
16.
We study quasimonotone increasing linear mappings in finite-dimensional spaces of real polynomials, ordered by the cone of nonnegative polynomials on . In particular, we prove a representation of the space of quasimonotone increasing and decreasing operators, which turns out to have dimension 3 or 4. 相似文献
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Fernando Rodriguez-Villegas 《Proceedings of the American Mathematical Society》2002,130(8):2251-2254
We prove that certain naturally arising polynomials have all of their roots on a vertical line. 相似文献
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Bao-Xuan Zhu 《Discrete Mathematics》2013,313(22):2602-2606
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