Analysis

Lieb, Élliott H.; Loss, Michael

doi:10.1090/gsm/014

Cited by 2,210 publications

(1,749 citation statements)

References 22 publications

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“…Taking into account (2.2) and the boundedness of (u m ) m∈N in [0, 1], we infer the boundedness of (u m ) m∈N in W 1,2 (0, 1) and further, we state the existence of a subsequence of (u m ) m∈N (still denoted by (u m ) m∈N ) weakly convergent in W 1,2 (0, 1) to a certain u 0 ∈ W 1,2 (0, 1). The Rellich-Kondrashov theorem ( [12]) yields the uniform convergence of…”

Section: Continuous Dependence Of Solutions On Functional Parametersmentioning

confidence: 99%

“…In the wide literature devoted to BVPs similar to (1.1)-(1.3) (see e.g. [4][5][6][7][8][9][10][11][12][13][17][18][19][20][21] and references therein) the authors investigate mainly the existence of solutions for (1.1) under a variety of boundary conditions. Moreover, in the last fifty years, we could observe increasing interest in investigating sufficient conditions for the oscillation or nonoscillation of solutions of various classes of ODEs ( [1][2][3][5][6][7][8][9], and references therein).…”

Section: Introductionmentioning

confidence: 99%

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A note on the dependence of solutions on functional parameters for nonlinear Sturm-Liouville problems

Orpel¹

2014

OpMath

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Section: Continuous Dependence Of Solutions On Functional Parametersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A note on the dependence of solutions on functional parameters for nonlinear Sturm-Liouville problems

Orpel¹

2014

OpMath

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“…We may assume without loss of generality that δ * = δ ∈ (0, 1−β 2 ). It will suffice to prove the inequality for functions u ∈ C ∞ 0 (Ω) that are real-valued and nonnegative (Lieb & Loss [21], pp.176-177). For u ∈ C ∞ 0 (Ω) and u = d 1−β 2 v it follows from integrating by parts that and −∆d(x) ≥ 0 in Ω δ k for k sufficiently large and C(α, β) defined in (3.7).…”

Section: Lemmamentioning

confidence: 99%

“…In this paper, we will use the Sobolev space H 1 (G) = W 1,2 (G) for an open set G ⊂ R n , see Lieb and Loss [21], chapter 7.…”

Section: Introductionmentioning

confidence: 99%

Spectral Properties of Some Degenerate Elliptic Differential Operators

Lewis

2011

Spectral Theory, Function Spaces and Inequalities

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Abstract. In this paper we extend classical criteria for determining lower bounds for the least point of the essential spectrum of second-order elliptic differential operators on domains Ω ⊂ R n allowing for degeneracy of the coefficients on the boundary. We assume that we are given a sesquilinear form and investigate the degree of degeneracy of the coefficients near ∂Ω that can be tolerated and still maintain a closable sesquilinear form to which the First Representation Theorem can be applied. Then, we establish criteria characterizing the least point of the essential spectrum of the associated differential operator in these degenerate cases. Applications are given for convex and non-convex Ω using Hardy inequalities, which recently have been proven in terms of the distance to the boundary, showing the spectra to be purely discrete.The classical criterion for the least point of the essential spectrum was given by Persson [22] for a Schrödinger operator −∆ + q(x),x ∈ Ω,

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“…For such a given admissible configuration ε T i , we assume a given imposed displacement that is chosen in the direction transversal to the laminates 1 : 13) together with the zero-traction boundary conditions…”

Section: Stress-free Transformationmentioning

confidence: 99%

Rise of Correlations of Transformation Strains in Random Polycrystals

Berlyand¹,

Bruno

Novikov³

2008

SIAM J. Math. Anal.

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Abstract. We investigate the statistics of the transformation-strains that arise in random martensitic polycrystals as boundary conditions cause its component crystallites to undergo martensitic phase transitions. In our one-dimensional polycrystal model the orientation of the n grains is given by an uncorrelated random array of the orientation angles θ i , i = 1, . . . , n. Under imposed boundary conditions the polycrystal grains may undergo a martensitic transformation. The associated transformation strains ε i , i = 1, . . . , n depend on the array of orientation angles, and they can be obtained as a solution to a nonlinear optimization problem. While the random variables θ i , i = 1, . . . , n are uncorrelated, the random variables ε i , i = 1, . . . , n may be correlated. This issue is central in our considerations. We investigate it in following three different scaling limits: (i) Infinitely long grains (L = ∞); (ii) Grains of finite but large height (L = L ≫ 1); and (iii) Chain of short grains (L = l 0 /(2n), l 0 ≪ 1). With references to de Finetti's Theorem, Riesz' rearrangement inequality and near neighbor approximations, our analyses establish that under the scaling limits (i), (ii) and (iii) the arrays of transformation strains arising from given boundary conditions exhibit no correlations, long-range correlations and exponentially decaying short-range correlations, respectively.

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Analysis

Cited by 2,210 publications

References 22 publications

A note on the dependence of solutions on functional parameters for nonlinear Sturm-Liouville problems

A note on the dependence of solutions on functional parameters for nonlinear Sturm-Liouville problems

Spectral Properties of Some Degenerate Elliptic Differential Operators

Rise of Correlations of Transformation Strains in Random Polycrystals

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