Startseite Mathematik An inverse boundary problem for fourth-order Schrödinger equations with partial data
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

An inverse boundary problem for fourth-order Schrödinger equations with partial data

  • Zhiwen Duan und Shuxia Han EMAIL logo
Veröffentlicht/Copyright: 22. Januar 2019
Veröffentlichen auch Sie bei De Gruyter Brill
Informationen für Autor*innen Erkunden Sie dieses Fachgebiet
Mathematica Slovaca
Aus der Zeitschrift Mathematica Slovaca Band 69 Heft 1

Abstract

In this paper, we show that in dimension n ≥ 3, the knowledge of the Cauchy data for the fourth-order Schrödinger equation measured on possibly very small subsets of the boundary determines uniquely the potential. The proof is based on the Carleman estimates and the construction of complex geometrical optics solutions.

MSC 2010: Primary 35J40; 35J10; 31B20
Keywords: fourth-order Schrödinger equations; Carleman estimates; complex geometrical optics solutions

This work was supported by NSFC Grant No.61671009.

  1. (Communicated by Giuseppe Di Fazio)

Acknowledgement

We gratefully acknowledge for the reviewer’s suggestion.

References

[1] Ammari, H.—Uhlmann, G.: Reconstruction of the potential from partial Cauchy data for the Schrödinger equation, Indiana Univ. Math. J. 53 (2004), 169–184.10.1512/iumj.2004.53.2299Suche in Google Scholar

[2] Astala, K.—Lassas, M.—Päivärinta, L.: Calderón’s inverse problem for anisotropic conductivity in the plane, Comm. Partial Differential Equations 30 (2005), 207–224.10.1081/PDE-200044485Suche in Google Scholar

[3] Astala, K.—Päivärinta, L.: Calderón’s inverse conductivity problem in the plane, Ann. Math. 163 (2006), 265–299.10.4007/annals.2006.163.265Suche in Google Scholar

[4] Boman, J.: A local vanishing theorem for distributions, C. R. Acad. Pairs, Série I 315 (1992), 1231–1234.Suche in Google Scholar

[5] Bukhgeim, A. L.: Recovering a potential from Cauchy data in the two dimensional case, J. Inverse Ill-Posed Probl. 16 (2008), 19–34.10.1515/jiip.2008.002Suche in Google Scholar

[6] Bukhgeim, A. L.—Uhlmann, G.: Recovering a potential from partial Cauchy data, Comm. Partial Differential Equations 27 (2002), 653–668.10.1081/PDE-120002868Suche in Google Scholar

[7] Calderón, A. P.: On an inverse boundary value problem. Seminar on Numerical Analysis and its Applications to Continuum Physics (Río de Janeiro 1980), Soc. Brasileira de Matemática, pp. 65–73.10.1590/S0101-82052006000200002Suche in Google Scholar

[8] Chen, D.—Cheng, Q. M.—Wang, Q.—Xia, C.: On eigenvalues of a system of elliptic equations and of the biharmonic operator, J. Math. Anal. Appl. 387 (2012), 1146–1159.10.1016/j.jmaa.2011.10.020Suche in Google Scholar

[9] Cheng, J.—Yamamoto, M.: Determination of two convection coefficients from Dirichlet to Neumann map in the two-dimensional case, SIAM J. Math. Anal. 35 (2004), 1371–1393.10.1137/S0036141003422497Suche in Google Scholar

[10] Duan, Z.—Zheng, Q.—Feng, J.: Long range scattering for higher order Schrödinger operators, J. Differential Equations 254 (2013), 3329–3351.10.1016/j.jde.2013.01.022Suche in Google Scholar

[11] Duistermaat, J. J.—Hörmander, L.: Fourier integral operators II, Acta Math. 128 (1972), 183–269.10.1007/BF02392165Suche in Google Scholar

[12] Faddeev, L. D.: Increasing solutions of the Schrödinger equation, Sov. Phys. Dokl. 10 (1966), 1033–1035.Suche in Google Scholar

[13] Fathallah, I. K.: Stability for the inverse potential problem by the local Dirichlet-to-Neumann map for the Schrödinger equation, Appl. Anal. 86 (2007), 899–914.10.1080/00036810701497067Suche in Google Scholar

[14] Ferreira, D. S.—Kenig, C. E.—Sjöstrand, J.: On the linearized local Calderón problem, Math. Res. Lett. 16 (2009), 955–970.10.4310/MRL.2009.v16.n6.a4Suche in Google Scholar

[15] Ferreira, D. S.—Kenig, C. E.—Sjöstrand, J.: Determining a magnetic Schrödinger operator from partial Cauchy data, Comm. Math. Phys. 271 (2007), 467–488.10.1007/s00220-006-0151-9Suche in Google Scholar

[16] Greenleaf, A.—Uhlmann, G.: Local uniqueness for the Dirichlet-to-Neumann map via the two-plane transform, Duke Math. J. 108 (2001), 599–617.10.1215/S0012-7094-01-10837-5Suche in Google Scholar

[17] Guillarmou, C.—Tzou, L.: Calderón inverse problem with partial data on Riemann surfaces, Duke Math. J. 158 (2011), 83–120.10.1215/00127094-1276310Suche in Google Scholar

[18] Guillarmou, C.—Tzou, L.: Identification of a connection from Cauchy data on a Riemann surface with boundary, Geom. Funct. Anal. 21 (2011), 393–418.10.1007/s00039-011-0110-2Suche in Google Scholar

[19] Heidarkhani, S.: Existence of non-trivial solutions for systems of n fourth order partial differential equations, Math. Slovaca 64 (2014), 1249–1266.10.2478/s12175-014-0273-zSuche in Google Scholar

[20] Hörmander, H.: The Analysis of Linear Partial Differential Operators IV, Springer-Verlag, Berlin 1985.Suche in Google Scholar

[21] Hörmander, H.: Uniqueness theorems and wave front sets for solutions of linear differential equations with analytic coefficients, Comm. Pure Appl. Math. 24 (1971), 671–704.10.1002/cpa.3160240505Suche in Google Scholar

[22] Hörmander, H.: Remarks on Holmgren’s uniqueness theorem, Ann. Inst. Fourier 43 (1993), 1223–1251.10.5802/aif.1371Suche in Google Scholar

[23] Isozaki, H.— Uhlmann, G.: Hyperbolic geometry and the Dirichlet-to-Neumann map, Adv. Math. 188 (2004), 294–314.10.1016/j.aim.2003.10.006Suche in Google Scholar

[24] Imanuvilov, O.—Yamamoto, M.: Inverse boundary value problem for Schrödinger equation in two dimensions, SIAM J. Math. Anal. 44 (2012), 1333–1339.10.1137/11083736XSuche in Google Scholar

[25] Imanuvilov, O.—Uhlmann, G.—Yamamoto, M.: The Calderón problem with partial data in two dimensions, J. Amer. Math. Soc. 23 (2010), 655–691.10.1090/S0894-0347-10-00656-9Suche in Google Scholar

[26] Imanuvilov, O.—Uhlmann, G.—Yamamoto, M.: Inverse boundary value problem by measuring Dirichlet and Neumann data on disjoint sets, Inverse Problems 27 (2011), 085007.10.1088/0266-5611/27/8/085007Suche in Google Scholar

[27] Imanuvilov, O.—Uhlmann, G.—Yamamoto, M.: Determination of second order elliptic operators in two dimensions from partial Cauchy data, Proc. Natl. Acad. Sci. USA 108 (2011), 467–472.10.1073/pnas.1011681107Suche in Google Scholar PubMed PubMed Central

[28] Imanuvilov, O.—Yamamoto, M.: Inverse problem by Cauchy data for an arbitrary sub-boundary for systems of elliptic equations, Inverse Problems 28 (2012), 095015.10.1088/0266-5611/28/9/095015Suche in Google Scholar

[29] Isakov, V.: On uniqueness of recovery of a discontinuous conductivity coefficient, Comm. Pure Appl. Math. 41 (1988), 865–877.10.1002/cpa.3160410702Suche in Google Scholar

[30] Isakov, V.: On uniqueness in the inverse conductivity problem with local data, Inverse Probl. Imaging 1 (2007), 95–105.10.3934/ipi.2007.1.95Suche in Google Scholar

[31] Isakov, V.: Inverse Problems for Partial Differential Equations, New York: Springer-Verlag 2006.Suche in Google Scholar

[32] Joud, H. B.: A stability estimate for an inverse problem for the Schrödinger equation in a magnetic field from partial boundary measurements, Inverse Problems 25 (2009), 045012.10.1088/0266-5611/25/4/045012Suche in Google Scholar

[33] Kenig, C. E.—Sjöstrand, J.—Uhlmann, G.: The Calderón problem with partial data, Ann. Math. 165 (2007), 567–591.10.4007/annals.2007.165.567Suche in Google Scholar

[34] Krupchyk, K.—Lassas, M.—Uhlmann, G.: Determining a first order perturbation of the biharmonic operator, J. Func. Anal. 262 (2012), 1781–1801.10.1016/j.jfa.2011.11.021Suche in Google Scholar

[35] Knudsen, K.—Salo, M.: Determining nonsmooth first order terms from partial boundary measurements, Inverse Probl. Imaging 1 (2007), 349–369.10.3934/ipi.2007.1.349Suche in Google Scholar

[36] Marin, L.—Lesnic, D.: The method of fundamental solutions for inverse boundary value problems associated with the two-dimensional biharmonic equation, Math. Comput. Mod. 42 (2005), 261–278.10.1016/j.mcm.2005.04.004Suche in Google Scholar

[37] Melin, A.—Sjöstrand, J.: Fourier integral operators with complex phase functions. Lecture Notes in Math. 459, Springer-Verlag, New York, 1975, pp. 120–223.10.1007/BFb0074195Suche in Google Scholar

[38] Nachman, A.: Global uniqueness for a two-dimensional inverse boundary value problem, Ann. Math. 143 (1996), 71–96.10.2307/2118653Suche in Google Scholar

[39] Salo, M.—Tzou, L.: Inverse problems with partial data for a Dirac system: a Carleman estimate approach, Adv. Math. 225 (2010), 487–513.10.1016/j.aim.2010.03.003Suche in Google Scholar

[40] Sato, M.—Kawai, T.—Kashiwara, M.: Microfunctions and pseudodifferential equations, Lecture Notes in Math. 287, Springer-Verlag, New York, 1973, pp. 1–166.Suche in Google Scholar

[41] Sjöstrand, J.: Singularités Analytiques Microlocales, Soc. Math. France (Astérisque 95, Paris, 1982.Suche in Google Scholar

[42] Sylvester, J.—Uhlmann, G.: A global uniqueness theorem for an inverse boundary value problem, Ann. Math. 125 (1987), 153–169.10.2307/1971291Suche in Google Scholar

[43] Tzou, L.: Stability estimate for the coefficients of magnetic Schrödinger equation from full and partial boundary measurements, Comm. Partial Differential Equations 11 (2008), 1911–1952.10.1080/03605300802402674Suche in Google Scholar

[44] Uhlmann, G.: Electrical impedance tomography and Calderón’s problem, Inverse Problems 25 (2009), 123011.10.1088/0266-5611/25/12/123011Suche in Google Scholar

[45] Xu, J.—Dong, W.—O’Regan, D.: Existence of weak solutions for a fourth-order Navier boundary value problem, Appl. Math. Letters 37 (2014), 61–66.10.1016/j.aml.2014.01.003Suche in Google Scholar

[46] Yao, Y.—Wang, R.—Shen, Y.: Nontrivial solution for a class of semilinear biharmonic equation involving critical exponents, Acta Math. Sci. 27 (2007), 509–514.10.1016/S0252-9602(07)60050-2Suche in Google Scholar

[47] Zhang, G.: Uniqueness in the Calderón problem with partial data for less smooth conductivities, Inverse Problems 28 (2012), 105008.10.1088/0266-5611/28/10/105008Suche in Google Scholar

Received: 2017-08-31
Accepted: 2018-01-30
Published Online: 2019-01-22
Published in Print: 2019-02-25

© 2019 Mathematical Institute Slovak Academy of Sciences

Artikel in diesem Heft

  1. Prof. RNDr. pavel brunovský, DrSc. passed away dec. 5, 1934 – † dec. 14, 2018
  2. Ideals and congruences in pseudo-BCH algebras
  3. Regular double p-algebras
  4. Distributive nearlattices with a necessity modal operator
  5. States in generalized probabilistic models: An approach based in algebraic geometry
  6. Free power-associative n-ary groupoids
  7. On the 2-class field tower of subfields of some cyclotomic ℤ2-extensions
  8. On the space of generalized theta-series for certain quadratic forms in any number of variables
  9. Uniqueness and periodicity for meromorphic functions with partial sharing values
  10. Mild solution of stochastic partial differential equation with nonlocal conditions and noncompact semigroups
  11. An inverse boundary problem for fourth-order Schrödinger equations with partial data
  12. Entropy as an integral operator
  13. Global behavior of two third order rational difference equations with quadratic terms
  14. Measures on effect algebras
  15. Some topological and combinatorial properties preserved by inverse limits
  16. The convergence-theoretic approach to weakly first countable spaces and symmetrizable spaces
  17. Compositions of porouscontinuous functions
  18. A note on prime divisors of polynomials P(Tk); k ≥ 1
  19. On complete convergence for weighted sums of arrays of rowwise END random variables and its statistical applications
  20. Common fixed point theorems for a class of (s, q)-contractive mappings in b-metric-like spaces and applications to integral equations
https://doi.org/10.1515/ms-2017-0208
Schlagwörter für diesen Artikel
fourth-order Schrödinger equations; Carleman estimates; complex geometrical optics solutions

Artikel in diesem Heft

  1. Prof. RNDr. pavel brunovský, DrSc. passed away dec. 5, 1934 – † dec. 14, 2018
  2. Ideals and congruences in pseudo-BCH algebras
  3. Regular double p-algebras
  4. Distributive nearlattices with a necessity modal operator
  5. States in generalized probabilistic models: An approach based in algebraic geometry
  6. Free power-associative n-ary groupoids
  7. On the 2-class field tower of subfields of some cyclotomic ℤ2-extensions
  8. On the space of generalized theta-series for certain quadratic forms in any number of variables
  9. Uniqueness and periodicity for meromorphic functions with partial sharing values
  10. Mild solution of stochastic partial differential equation with nonlocal conditions and noncompact semigroups
  11. An inverse boundary problem for fourth-order Schrödinger equations with partial data
  12. Entropy as an integral operator
  13. Global behavior of two third order rational difference equations with quadratic terms
  14. Measures on effect algebras
  15. Some topological and combinatorial properties preserved by inverse limits
  16. The convergence-theoretic approach to weakly first countable spaces and symmetrizable spaces
  17. Compositions of porouscontinuous functions
  18. A note on prime divisors of polynomials P(Tk); k ≥ 1
  19. On complete convergence for weighted sums of arrays of rowwise END random variables and its statistical applications
  20. Common fixed point theorems for a class of (s, q)-contractive mappings in b-metric-like spaces and applications to integral equations
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 16.12.2025 von https://www.degruyterbrill.com/document/doi/10.1515/ms-2017-0208/html?lang=de
Button zum nach oben scrollen