ترغب بنشر مسار تعليمي؟ اضغط هنا

Spectral flow inside essential spectrum III: coupling resonances near essential spectrum

145   0   0.0 ( 0 )
 نشر من قبل Nurulla Azamov Dr
 تاريخ النشر 2021
  مجال البحث فيزياء
والبحث باللغة English
 تأليف Nurulla Azamov




اسأل ChatGPT حول البحث

Given a self-adjoint operator $H_0$ and a relatively $H_0$-compact self-adjoint operator $V,$ the functions $r_j(z) = - sigma_j^{-1}(z),$ where $sigma_j(z)$ are eigenvalues of the compact operator $(H_0-z)^{-1}V,$ bear a lot of important information about the pair $H_0$ and $V.$ We call them coupling resonances. In case of rank one (and positive) perturbation $V,$ there is only one coupling resonance function, which is a Herglotz function. This case has been studied in depth in the literature, and appears in different situations, such as Sturm-Liouville theory, random Schrodinger operators, harnomic and spectral analyses, etc. The general case is complicated by the fact that the resonance functions are no longer single valued holomorphic functions, and potentially can have quite an erratic behaviour, typical for infinitely-valued holomorphic functions. Of special interest are those coupling resonance functions $r_z$ which approach a real number $r_{lambda+i0}$ from the interval $[0,1]$ as the spectral parameter $z=lambda+iy$ approaches a point $lambda$ of the essential spectrum, since they are responsible for spectral flow through $lambda$ inside essential spectrum when $H_0$ gets deformed to $H_1 = H_0+V$ via the path $H_0 + rV, r in [0,1].$ In this paper it is shown that if the pair $H_0,$ $V$ satisfies the limiting absorption principle, then the coupling resonance functions are well-behaved near the essential spectrum in the following sense. Let $I$ be an open interval inside the essential spectrum of $H_0$ and $epsilon>0.$ Then there exists a compact subset~$K$ of~$I$ such that $| I setminus K | < epsilon,$ and $K$ has a non-tangential neighbourhood in the upper complex half-plane, such that any coupling resonance function is either single-valued in the neighbourhood, or does not take a real value in the interval $[0,1].$



قيم البحث

اقرأ أيضاً

204 - Nurulla Azamov 2014
The spectral flow is a classical notion of functional analysis and differential geometry which was given different interpretations as Fredholm index, Witten index, and Maslov index. The classical theory treats spectral flow outside the essential spec trum. Inside essential spectrum, the spectral shift function could be considered as a proper analogue of spectral flow, but unlike the spectral flow, the spectral shift function is not an integer-valued function. In this paper it is shown that the notion of spectral flow admits a natural integer-valued extension for a.e. value of the spectral parameter inside essential spectrum too and appropriate theory is developed. The definition of spectral flow inside essential spectrum given in this paper applies to the classical spectral flow and thus gives one more new alternative definition of it.
115 - Nurulla Azamov 2021
This paper is a continuation of the study of spectral flow inside essential spectrum initiated in cite{AzSFIES}. Given a point $lambda$ outside the essential spectrum of a self-adjoint operator $H_0,$ the resonance set, $mathcal R(lambda),$ is an ana lytic variety which consists of self-adjoint relatively compact perturbations $H_0+V$ of $H_0,$ for which $lambda$ is an eigenvalue. One may ask for criteria for the vector $V$ to be tangent to the resonance set. Such criteria were given in cite{AzSFnRI}. In this paper we study similar criteria for the case of $lambda$ inside the essential spectrum of $H_0.$ For the case $lambda in sigma_{ess}(H_0)$ the resonance set is defined in terms of the well-known limiting absorption principle. Among the results of this paper is that the resonance set contains plenty of straight lines, moreover, given any regular relatively compact perturbation $V$ there exists a finite rank self-adjoint operator, $tilde V,$ such that the straight line $H_0 + mathbb R(V-tilde V)$ belongs to the resonance set. Another result of this paper is that inside the essential spectrum there exist plenty of transversal to the resonance set perturbations $V$ which have order $geq 2,$ in contrast to what happens outside the essential spectrum, cite{AzSFnRI}.
We discuss connections between the essential self-adjointness of a symmetric operator and the constancy of functions which are in the kernel of the adjoint of the operator. We then illustrate this relationship in the case of Laplacians on both manifo lds and graphs. Furthermore, we discuss the Greens function and when it gives a non-constant harmonic function which is square integrable.
We study the essential spectrum of operator pencils associated with anisotropic Maxwell equations, with permittivity $varepsilon$, permeability $mu$ and conductivity $sigma$, on finitely connected unbounded domains. The main result is that the essent ial spectrum of the Maxwell pencil is the union of two sets: namely, the spectrum of the pencil $mathrm{div}((omegavarepsilon + i sigma) abla,cdot,)$, and the essential spectrum of the Maxwell pencil with constant coefficients. We expect the analysis to be of more general interest and to open avenues to investigation of other questions concerning Maxwells and related systems.
We continue studying the connection between Jacobi matrices defined on a tree and multiple orthogonal polynomials (MOPs) that was discovered previously by the authors. In this paper, we consider Angelesco systems formed by two analytic weights and ob tain asymptotics of the recurrence coefficients and strong asymptotics of MOPs along all directions (including the marginal ones). These results are then applied to show that the essential spectrum of the related Jacobi matrix is the union of intervals of orthogonality.
التعليقات
جاري جلب التعليقات جاري جلب التعليقات
سجل دخول لتتمكن من متابعة معايير البحث التي قمت باختيارها
mircosoft-partner

هل ترغب بارسال اشعارات عن اخر التحديثات في شمرا-اكاديميا