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Complex Variables and Elliptic Equations
An International Journal
Volume 63, 2018 - Issue 7-8: Special Issue dedicated to 130th anniversary of Vladimir I. Smirnov
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Special issue dedicated to 130th anniversary of Vladimir I. Smirnov

Completeness of resonance states for quantum graph with two semi-infinite edges

D. A. GerasimovDepartment of Higher Mathematics, ITMO University, Saint Petersburg, Russia.View further author information
&
I. Y. PopovDepartment of Higher Mathematics, ITMO University, Saint Petersburg, Russia.Correspondence[email protected]
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Pages 996-1010 | Received 02 Jan 2017, Accepted 28 Jan 2017, Published online: 01 Mar 2017

References

  • Exner P, Lotoreichik V, Tater M. On resonances and bound states of Smilansky Hamiltonian. Nanosyst Phys Chem Math. 2016;7:789–802.
  • Aslanyan A, Parnovski L, Vassiliev D. Complex resonances in acoustic waveguides. Q J Mech Appl Math. 2000;53(3):429–447.
  • Duclos P, Exner P, Meller B. Open quantum dots: resonances from perturbed symmetry and bound states in strong magnetic fields. Rep Math Phys. 2001;47(2):253–267.
  • Edward J. On the resonances of the Laplacian on waveguides. J Math Anal Appl. 2002;272(1):89–116.
  • Exner P, Kovarik H. Quantum waveguides. Berlin: Springer; 2015.
  • Christiansen T. Some upper bounds on the number of resonances for manifolds with infinite cylindrical ends. Ann Henri Poincare. 2002;3:895–920.
  • Popov IY, Kurasov PA, Naboko SN, et al. A distinguished mathematical physicist Boris S. Pavlov. Nanosyst Phys Chem Math. 2016;7:782–788.
  • Hislop PD, Martinez A. Scattering resonances of Helmholtz resonator. Indiana Univ Math J. 1991;40:767–788.
  • Gadyl’shin RR. Existence and asymptotics of poles with small imaginary part for the Helmholtz resonator. Russ Math Surv. 1997;52(1):1–72.
  • Popov IY. Extension theory and localization of resonances for domains of trap type. Math USSR Sbornik. 1992;71(1):209–234. DOI:10.1070/SM1992v071n01ABEH001394
  • Popov IY. The resonator with narrow slit and the model based on the operator extensions theory. J Math Phys. 1992;33(11):3794–3801.
  • Popov IY, Popova SL. Zero-width slit model and resonances in mesoscopic systems. Europhys Lett. 1993;24(5):373–377.
  • Popov IY, Popova SL. The extension theory and resonances for a quantum waveguide. Phys Lett A. 1993;173:484–488.
  • Bruning J, Geyler VA. Scattering on compact manifold with infinitely thin horns. J Math Phys. 2003;44:371–405.
  • Popov IY, Popov AI. Line with attached segment as a model of Helmholtz resonator: Resonant states completeness. J King Saud Univ Sci. 2017;29:133–136.
  • Grishanov EN, Eremin DA, Ivanov DA, et al. Dirac operator on the sphere with attached wires. Chin Phys B. 2016;25(4):047303/1-4.
  • Eremin DA, Ivanov DA, Popov IY. Model of tunnelling through nanosphere in a magnetic field. Physica E. 2012;44:1598–1601.
  • Shushkov AA. Structure of resonances for symmetric scatterers. Theor Math Phys. 1985;64:944–949.
  • Popov IYu, Strepetov AV. On the completeness of eigenfunctions for bilateral Regge problem. Leningrad Univ. Vestnik Math. 1983;13:25–31.
  • Vorobiev AM, Popov IY. Model of quantum dot and resonant states for the Helmholtz resonator. J Phys Conf Ser. 2015;643(2015):012097.
  • Avdonin SA, Ivanov SA, Russell DL. Exponential bases in Sobolev spaces in control and observation problems for the wave equation. Proc Roy Soc Edinburgh Sect A. 2000;130:947–970.
  • Avdonin S, Ivanov SA. Families of exponentials. The method of moments in controllability problems for distributed parameter systems. Cambridge: Cambridge University Press; 1995.
  • Al-Musallam F, Avdonin S, Avdonina N, et al. Control and inverse problems for networks of vibrating strings with attached masses. Nanosyst Phys Chem Math. 2016;7:835–841.
  • Mikhaylov AS, Mikhaylov VS. Dynamical inverse problem for the discrete Schrödinger operator. Nanosyst Phys Chem Math. 2016;7:842–853.
  • Lax PD, Phillips RS. Scattering theory. New York (NY): Academic Press; 1967.
  • Lax PD, Phillips RS. Scattering theory for automorphic functions. Princeton (NJ): Princeton University Press; Tokyo: University of Tokyo Press; 1976.
  • Sz.-Nagy B, Foias C, Bercovici H, et al. Harmonic analysis of operators on Hilbert space. 2nd ed. Berlin: Springer; 2010.
  • Nikol’skii N. Treatise on the shift operator: spectral function theory. Berlin: Springer Science & Business Media; 2012.
  • Khrushchev SV, Nikol’skii NK, Pavlov BS. Unconditional bases of exponentials and of reproducing kernels, Complex analysis and spectral theory (Leningrad, 1979/1980). Vol. 864, Lecture notes in mathematics. Berlin: Springer-Verlag; 1981. p. 214–335.
  • Peller VV. Hankel operators and their applications. Springer monographs in mathematics. New York (NY): Springer-Verlag; 2003.
  • Adamyan VM, Arov DZ. On a class of scattering operators and characteristic operator-functions of contractions. Dokl Akad Nauk SSSR. 1965;160:9–12.

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