Intrinsic arrested nanoscale phase separation near a topological Lifshitz transition in strongly correlated two-band metals. Bianconi, A., Poccia, N., Sboychakov, A. O., Rakhmanov, A. L., & Kugel, K. I. Superconductor Science and Technology, 28(2):024005+, February, 2015.
Intrinsic arrested nanoscale phase separation near a topological Lifshitz transition in strongly correlated two-band metals [link]Paper  doi  abstract   bibtex   
The arrested nanoscale phase separation in a two-band Hubbard model for strongly correlated charge carriers is shown to occur in a particular range in the vicinity of the topological Lifshitz transition, where the Fermi energy crosses the bottom of the narrow band and a new sheet of the Fermi surface related to the charge carriers of the second band comes into play. We determine the phase separation diagram of this two-band Hubbard model as a function of two variables, the charge carrier density and the energy shift between the chemical potential and the bottom of the second band. In this phase diagram, we first determine a line of quantum critical points for the Lifshitz transition and find criteria for the electronic phase separation resulting in an inhomogeneous charge distribution. Finally, we identify the critical point in the presence of a variable long-range Coulomb interaction where the scale invariance of the coexisting phases with different charge densities appears. We argue that this point is relevant for the regime of scale invariance of the nanoscale phase separation in cuprates like it was first observed in La 2 CuO .
@article{bianconi_intrinsic_2015,
	title = {Intrinsic arrested nanoscale phase separation near a topological {Lifshitz} transition in strongly correlated two-band metals},
	volume = {28},
	issn = {0953-2048},
	url = {http://dx.doi.org/10.1088/0953-2048/28/2/024005},
	doi = {10.1088/0953-2048/28/2/024005},
	abstract = {The arrested nanoscale phase separation in a two-band Hubbard model for strongly correlated charge carriers is shown to occur in a particular range in the vicinity of the topological Lifshitz transition, where the Fermi energy crosses the bottom of the narrow band and a new sheet of the Fermi surface related to the charge carriers of the second band comes into play. We determine the phase separation diagram of this two-band Hubbard model as a function of two variables, the charge carrier density and the energy shift between the chemical potential and the bottom of the second band. In this phase diagram, we first determine a line of quantum critical points for the Lifshitz transition and find criteria for the electronic phase separation resulting in an inhomogeneous charge distribution. Finally, we identify the critical point in the presence of a variable long-range Coulomb interaction where the scale invariance of the coexisting phases with different charge densities appears. We argue that this point is relevant for the regime of scale invariance of the nanoscale phase separation in cuprates like it was first observed in La 2 CuO .},
	number = {2},
	journal = {Superconductor Science and Technology},
	author = {Bianconi, Antonio and Poccia, Nicola and Sboychakov, A. O. and Rakhmanov, A. L. and Kugel, K. I.},
	month = feb,
	year = {2015},
	keywords = {lifshitz, vo2},
	pages = {024005+}
}
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