122 research outputs found

    Marchenko-Ostrovski mappings for periodic Jacobi matrices

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    We consider the 1D periodic Jacobi matrices. The spectrum of this operator is purely absolutely continuous and consists of intervals separated by gaps. We solve the inverse problem (including characterization) in terms of vertical slits on the quasimomentum domain . Furthermore, we obtain a priori two-sided estimates for vertical slits in terms of Jacoby matrices

    A priori estimates for the Hill and Dirac operators

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    Consider the Hill operator Ty=−y′′+q′(t)yTy=-y''+q'(t)y in L2(R)L^2(\R), where q∈L2(0,1)q\in L^2(0,1) is a 1-periodic real potential. The spectrum of TT is is absolutely continuous and consists of bands separated by gaps \g_n,n\ge 1 with length |\g_n|\ge 0. We obtain a priori estimates of the gap lengths, effective masses, action variables for the KDV. For example, if \m_n^\pm are the effective masses associated with the gap \g_n=(\l_n^-,\l_n^+), then |\m_n^-+\m_n^+|\le C|\g_n|^2n^{-4} for some constant C=C(q)C=C(q) and any n≥1n\ge 1. In order prove these results we use the analysis of a conformal mapping corresponding to quasimomentum of the Hill operator. That makes possible to reformulate the problems for the differential operator as the problems of the conformal mapping theory. Then the proof is based on the analysis of the conformal mapping and the identities. Moreover, we obtain the similar estimates for the Dirac operator

    Periodic Jacobi operator with finitely supported perturbation on the half-lattice

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    We consider the periodic Jacobi operator JJ with finitely supported perturbations on the half-lattice. We describe all eigenvalues and resonances of JJ and give their properties. We solve the inverse resonance problem: we prove that the mapping from finitely supported perturbations to the Jost functions is one-to-one and onto, we show how the Jost functions can be reconstructed from the eigenvalues, resonances and the set of zeros of S(\l)-1, where S(\l) is the scattering matrix.Comment: 29 page

    Effective masses for zigzag nanotubes in magnetic fields

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    We consider the Schr\"odinger operator with a periodic potential on quasi-1D models of zigzag single-wall carbon nanotubes in magnetic field. The spectrum of this operator consists of an absolutely continuous part (intervals separated by gaps) plus an infinite number of eigenvalues with infinite multiplicity. We obtain identities and a priori estimates in terms of effective masses and gap lengths

    Spectral estimates for periodic Jacobi matrices

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    We obtain bounds for the spectrum and for the total width of the spectral gaps for Jacobi matrices on ℓ2(Z)\ell^2(\Z) of the form (Hψ)n=an−1ψn−1+bnψn+anψn+1(H\psi)_n= a_{n-1}\psi_{n-1}+b_n\psi_n+a_n\psi_{n+1}, where an=an+qa_n=a_{n+q} and bn=bn+qb_n=b_{n+q} are periodic sequences of real numbers. The results are based on a study of the quasimomentum k(z)k(z) corresponding to HH. We consider k(z)k(z) as a conformal mapping in the complex plane. We obtain the trace identities which connect integrals of the Lyapunov exponent over the gaps with the normalised traces of powers of HH.Comment: 18 pages, 5 figures, presentation improved, to appear in Commun. Math. Phy

    Inverse problem for periodic "weighted" operators

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    Periodic "weighted" operators

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