Estimates for eigenvalues of Laplacian operator with any order |
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| Authors: | Fa-en Wu Lin-fen Cao |
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| Affiliation: | 1. Department of Mathematics, Beijing Jiaotong University, Beijing 100044, China
2. Department of Mathematics, Henan Normal University, Xinxiang 453007, China |
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| Abstract: | Let D be a bounded domain in an n-dimensional Euclidean space ℝ n . Assume that are the eigenvalues of the Dirichlet Laplacian operator with any order l: . Then we obtain an upper bound of the (k+1)-th eigenvalue λ k+1 in terms of the first k eigenvalues. . This ineguality is independent of the domain D. Furthermore, for any l ⩾ 3 the above inequality is better than all the known results. Our rusults are the natural generalization of inequalities corresponding to the case l = 2 considered by Qing-Ming Cheng and Hong-Cang Yang. When l = 1, our inequalities imply a weaker form of Yang inequalities. We aslo reprove an implication claimed by Cheng and Yang. The first author’s research was supported by the National Natural Science Foundation of China (Grant No. 10571088) |
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| Keywords: | Dirichlet problem eigenvalue estimate Laplacian operator |
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![$$sumlimits_{i = 1}^k {(lambda _{(k + 1)} - lambda _i )} leqslant frac{1}{n}[4l(n + 2l - 2)]^{tfrac{1}{2}} left{ {sumlimits_{i = 1}^k {(lambda _{(k + 1)} - lambda _i )^{tfrac{1}{2}} lambda _i^{tfrac{{l - 1}}{l}} sumlimits_{i = 1}^k {(lambda _{(k + 1)} - lambda _i )^{tfrac{1}{2}} lambda _i^{tfrac{1}{l}} } } } right}^{tfrac{1}{2}} $$](/content/463712w635706g26/11425_2007_Article_68_TeX2GIFE3.gif)