Localization of Generalized Wannier Bases Implies Chern Triviality in Non-periodic Insulators

Marcelli, Giovanna; Moscolari, Massimo; Panati, Gianluca

doi:10.1007/s00023-022-01232-7

Cited by 8 publications

(10 citation statements)

References 86 publications

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“…Proof. Without loss of generality, we can assume that m > l. To compute the sum in ( 14), we use the Cauchy-Maclaurin criterion adapted to our setting in same spirit as in [80]. The main idea is to estimate the sum from above by using an integral.…”

Section: A Elementary Lemmasmentioning

confidence: 99%

Finding spectral gaps in quasicrystals

Paul

Moscolari²,

Teufel³

2022

Phys. Rev. B

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We show how the spectrum of normal discrete short-range infinite-volume operators can be approximated with two-sided error control using only data from finite-sized local patches. As a corollary, we prove the computability of the spectrum of such infinite-volume operators with the additional property of finite local complexity and provide an explicit algorithm. Such operators appear in many applications, e.g. as discretizations of differential operators on unbounded domains or as so-called tight-binding Hamiltonians in solid state physics. For a large class of such operators, our result allows for the first time to establish computationally also the absence of spectrum, i.e. the existence and the size of spectral gaps. We extend our results to the ε-pseudospectrum of non-normal operators, proving that also the pseudospectrum of such operators is computable.

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Section: A Elementary Lemmasmentioning

confidence: 99%

Finding spectral gaps in quasicrystals

Paul

Moscolari²,

Teufel³

2022

Phys. Rev. B

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Section: Introductionmentioning

confidence: 99%

“…In [22] it is shown that GWBs can be used to investigate topological and transport properties of non-periodic gapped quantum systems. In particular, the Fermi projections that admit an exponentially localized (or just a well-localized [22]) GWB with a uniformly discrete set D, are Chern trivial in the sense that their Chern character is zero. As well known, the Chern character is proportional to the Hall conductivity, thus showing that topological quantum transport and well-localized generalized Wannier bases cannot coexist.…”

Section: Introductionmentioning

confidence: 99%

“…This point of view has been pushed forward and generalized in several directions. Ludewig and Thiang [18] considered systems which are periodic with respect to a suitable non-abelian discrete group, while Bourne and Mesland generalized [22] to a broader C * -algebraic setting [6]. Lu and Stubbs enlarged the class of welllocalized GWB for which the Chern character of the Fermi projection vanishes [19,20].…”

Section: Introductionmentioning

confidence: 99%

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Ultra-generalized Wannier bases: Are they relevant to topological transport?

Moscolari

Panati

2023

Journal of Mathematical Physics

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We generalize Prodan’s construction of radially localized generalized Wannier bases [E. Prodan, J. Math. Phys. 56(11), 113511 (2015)] to gapped quantum systems without time-reversal symmetry, including, in particular, magnetic Schrödinger operators, and we prove some basic properties of such bases. We investigate whether this notion might be relevant to topological transport by considering the explicitly solvable case of the Landau operator.

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“…The localization properties of Wannier functions also have a direct bearing on the topological properties of electronic bands. [5][6][7][8][9]. Exponentially localized Wannier functions can be constructed if and only if the Chern number and Hall conductivity of the corresponding filled band(s) are zero [5,10,11].…”

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confidence: 99%

Compact Wannier Functions in One Dimension

Sathe¹,

Roy²

2023

Preprint

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Wannier functions have widespread utility in condensed matter physics and beyond. Topological physics on the other hand has largely involved the related notion of compactly supported Wanniertype functions which arise naturally in flat bands. In this work, we establish a connection between these two notions, by finding the necessary and sufficient conditions under which compact Wannier functions exist in one dimension. We present an exhaustive construction of models with compact Wannier functions and show that the Wannier functions are unique and in general, distinct from the corresponding maximally localized Wannier functions.

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Localization of Generalized Wannier Bases Implies Chern Triviality in Non-periodic Insulators

Cited by 8 publications

References 86 publications

Finding spectral gaps in quasicrystals

Finding spectral gaps in quasicrystals

Ultra-generalized Wannier bases: Are they relevant to topological transport?

Compact Wannier Functions in One Dimension

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