Flat band analogues and flux driven extended electronic states in a class of geometrically frustrated fractal networks

Atanu Nandy; Biplab Pal; Arunava Chakrabarti

doi:10.1088/0953-8984/27/12/125501

Flat band analogues and flux driven extended electronic states in a class of geometrically frustrated fractal networks

Atanu Nandy, Biplab Pal, Arunava Chakrabarti

Research output: Contribution to journal › Article › peer-review

Abstract

We demonstrate, by explicit construction, that a single band tight binding Hamiltonian defined on a class of deterministic fractals of the b = 3N Sierpinski type can give rise to an infinity of dispersionless, flat-band like states which can be worked out analytically using the scale invariance of the underlying lattice. The states are localized over clusters of increasing sizes, displaying the existence of a multitude of localization areas. The onset of localization can, in principle, be 'delayed' in space by an appropriate choice of the energy of the electron. A uniform magnetic field threading the elementary plaquettes of the network is shown to destroy this staggered localization and generate absolutely continuous sub-bands in the energy spectrum of these non-translationally invariant networks.

Original language	English
Article number	125501
Journal	Journal of Physics Condensed Matter
Volume	27
Issue number	12
DOIs	https://doi.org/10.1088/0953-8984/27/12/125501
State	Published - 1 Apr 2015
Externally published	Yes

Keywords

extended electronic states
flat bands
flux driven transition
geometrically frustrated fractal networks
localization

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10.1088/0953-8984/27/12/125501

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abstract = "We demonstrate, by explicit construction, that a single band tight binding Hamiltonian defined on a class of deterministic fractals of the b = 3N Sierpinski type can give rise to an infinity of dispersionless, flat-band like states which can be worked out analytically using the scale invariance of the underlying lattice. The states are localized over clusters of increasing sizes, displaying the existence of a multitude of localization areas. The onset of localization can, in principle, be 'delayed' in space by an appropriate choice of the energy of the electron. A uniform magnetic field threading the elementary plaquettes of the network is shown to destroy this staggered localization and generate absolutely continuous sub-bands in the energy spectrum of these non-translationally invariant networks.",

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AU - Pal, Biplab

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AB - We demonstrate, by explicit construction, that a single band tight binding Hamiltonian defined on a class of deterministic fractals of the b = 3N Sierpinski type can give rise to an infinity of dispersionless, flat-band like states which can be worked out analytically using the scale invariance of the underlying lattice. The states are localized over clusters of increasing sizes, displaying the existence of a multitude of localization areas. The onset of localization can, in principle, be 'delayed' in space by an appropriate choice of the energy of the electron. A uniform magnetic field threading the elementary plaquettes of the network is shown to destroy this staggered localization and generate absolutely continuous sub-bands in the energy spectrum of these non-translationally invariant networks.

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Flat band analogues and flux driven extended electronic states in a class of geometrically frustrated fractal networks

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