Your search keyword '"Optimal constant"' showing total 7 results

1. Optimal Constants of Smoothing Estimates for the 2D Dirac Equation.

Author

Ikoma, Makoto

Abstract

In this paper, we discuss optimal constants and extremisers of Kato-smoothing estimates for the 2D Dirac equation. Smoothing estimates are inequalities that express the smoothing effect of dispersive equations, and detailed information regarding optimal constants and extremisers for wide classes of Kato-smoothing estimates were given in the last several year by Bez et al. (Adv Math 285:1767–1795, 2015) and Bez and Sugimoto (J Anal Math 131:159–187, 2017). This paper is a trial to generalize these previous results to include the Dirac equation which is outside the framework of them. [ABSTRACT FROM AUTHOR]

Published

2022

2. Sharp Hardy Inequalities via Riemannian Submanifolds.

Author

Chen, Yunxia, Leung, Naichung Conan, and Zhao, Wei

Abstract

This paper is devoted to Hardy inequalities concerning distance functions from submanifolds of arbitrary codimensions in the Riemannian setting. On a Riemannian manifold with non-negative curvature, we establish several sharp weighted Hardy inequalities in the cases when the submanifold is compact as well as non-compact. In particular, these inequalities remain valid even if the ambient manifold is compact, in which case we find an optimal space of smooth functions to study Hardy inequalities. Further examples are also provided. Our results complement in several aspects those obtained recently in the Euclidean and Riemannian settings. [ABSTRACT FROM AUTHOR]

Published

2022

3. Improvements and Generalizations of Two Hardy Type Inequalities and Their Applications to the Rellich Type Inequalities.

Author

Sano, Megumi

Abstract

We give improvements and generalizations of both the classical Hardy inequality and the geometric Hardy inequality based on the divergence theorem. Especially, our improved Hardy type inequality derives both two Hardy type inequalities with best constants. Besides, we improve two Rellich type inequalities by using the improved Hardy type inequality. [ABSTRACT FROM AUTHOR]

Published

2022

4. A NOTE ON TWO WEIGHTED DISCRETE CARLEMAN INEQUALITIES.

Author

BAOFENG LAI, RUNQIU WANG, and HAO LIU

Subjects

CARLEMAN theorem, VARIATIONAL inequalities (Mathematics), MATHEMATICIANS, ARITHMETIC mean, GEOMETRIC measure theory

Abstract

In this paper, we re-examine two weighted discrete Carleman inequalities, discuss their correctness and optimal constants in detail, and get some correct and relatively complete conclusions. [ABSTRACT FROM AUTHOR]

Published

2021

5. Hilbert's inequality

Author

Krezo, Karla and Berić, Tomislav

Subjects

poopćenja Hilbertove nejednakosti, PRIRODNE ZNANOSTI. Matematika, optimal constant, generalizations of Hilbert inequality, trigonometric polynomials, trigonometrijski polinomi, NATURAL SCIENCES. Mathematics, Hilbertove matrice, Hilbert matrices, optimalna konstanta

Abstract

U ovom diplomskom radu smo izveli Hilbertovu nejednakost te pokazali neke njene primjene. U prvome dijelu rada smo izveli Hilbertovu nejednakost u diskretnom i integralnom obliku te odredili da je optimalna konstanta u oba slučaja jednaka π. Za nejednakost u diskretnom obliku smo ponudili i alternativni dokaz pomoću geometrijske interpretacije. Također, izveli smo poopćenu Hilbertovu nejednakost koja vrijedi za konjugirane potencije p, q > 1 te pokazali da, uz različitu optimalnu konstantu, mogu vrijediti i slične nejednakosti, npr. varijanta s maksimumom koja nastaje zamjenom izraza m + n u nazivniku s max (m, n). Na kraju smo pokazali da je lijeva strana Hilbertove nejednakosti nenegativna. U drugome dijelu smo se bavili primjenama Hilbertove nejednakosti. Za primjene su nam najbitnije Hilbertove matrice pa smo im, nakon što smo ih definirali, iskazali i neka od njihovih važnijih svojstava, poput (anti)simetričnosti i regularnosti. Zatim smo uveli trigonometrijske polinome pomoću kojih smo dokazali još jedan oblik Hilbertove nejednakosti te odredili normu Hilbertovih matrica. Na kraju smo Hilbertovu nejednakost primijenili na integrale polinoma. In this thesis, we derive Hilbert’s inequality and present some of its applications. In the first chapter, we derive Hilbert’s inequality in its discrete and integral forms and determine that in both cases, π is the optimal constant. Additionally, we offer an alternative proof of discrete Hilbert’s inequality using a geometric interpretation. We also derive a generalization of the discrete Hilbert’s inequality for conjugate exponents p, q > 1 and show that similar inequalities, such as the maximum variant where the expression m + n in the denominator on the left side is replaced with max (m, n), also hold. In the end, we prove that the left-hand side of the discrete Hilbert’s inequality is non-negative. In the second chapter, after once again reviewing the key notions, we define Hilbert matrices and state some of their properties, such as (skew)symmetry and regularity. Next, we introduce trigonometric polynomials and use them to prove another form of Hilbert’s inequality, as well as determine the norm of Hilbert matrices. In the end, we apply Hilbert’s inequality to integrals of polynomials.

Published

2022

6. Uncertainty principle via variational calculus on modulation spaces.

Author

Dias, Nuno C., Luef, Franz, and Prata, João N.

Subjects

*CALCULUS of variations, *HEISENBERG uncertainty principle, *VARIATIONAL principles, *FUNCTIONAL equations, *COMPACT operators, *EULER-Lagrange equations

Abstract

We approach uncertainty principles of Cowling-Price-Heis-enberg-type as a variational principle on modulation spaces. In our discussion we are naturally led to compact localization operators with symbols in modulation spaces. The optimal constant in these uncertainty principles is the smallest eigenvalue of the inverse of a compact localization operator. The Euler-Lagrange equations for the associated functional provide equations for the eigenfunctions of the smallest eigenvalue of these compact localization operators. As a by-product of our proofs we derive a generalization to mixed-norm spaces of an inequality for Wigner and Ambiguity functions due do Lieb. [ABSTRACT FROM AUTHOR]

Published

2022

7. Symmetry for positive critical points of Caffarelli–Kohn–Nirenberg inequalities.

Author

Ciraolo, Giulio and Corso, Rosario

Subjects

*SYMMETRY, *SYMMETRY breaking, *ELLIPTIC equations, *CRITICAL point theory

Abstract

We consider positive critical points of Caffarelli–Kohn–Nirenberg inequalities and prove a Liouville type result which allows us to give a complete classification of the solutions in a certain range of parameters, providing a symmetry result for positive solutions. The governing operator is a weighted p -Laplace operator, which we consider for a general p ∈ (1 , d). For p = 2 , the symmetry breaking region for extremals of Caffarelli–Kohn–Nirenberg inequalities was completely characterized in Dolbeault et al. (2016). Our results extend this result to a general p and are optimal in some cases. [ABSTRACT FROM AUTHOR]

Published

2022