Mott transition in granular aluminum

N. Bachar; S. Lerer; A. Levy; S. Hacohen-Gourgy; B. Almog; H. Saadaoui; Z. Salman; E. Morenzoni; G. Deutscher

doi:10.1103/PhysRevB.91.041123

Mott transition in granular aluminum

N. Bachar, S. Lerer, A. Levy, S. Hacohen-Gourgy, B. Almog, H. Saadaoui, Z. Salman, E. Morenzoni, G. Deutscher

School of Physics and Astronomy

Tel Aviv University

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

Abstract

A Mott transition in granular Al films is observed by probing the increase of the spin-flip scattering rate of conduction electrons as the nanosize metallic grains are being progressively decoupled. The presence of free spins in granular Al films is directly demonstrated by μSR measurements. Analysis of the magnetoresistance in terms of an effective Fermi energy shows that it becomes of the order of the grains electrostatic charging energy at a room temperature resistivity ρ300K≈50000μΩcm, at which a metal to insulator transition is known to exist. As this transition is approached the magnetoresistance exhibits a heavy-fermion-like behavior, consistent with an increased electron effective mass.

Original language	English
Article number	041123
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	91
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.91.041123
State	Published - 29 Jan 2015

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.91.041123

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title = "Mott transition in granular aluminum",

abstract = "A Mott transition in granular Al films is observed by probing the increase of the spin-flip scattering rate of conduction electrons as the nanosize metallic grains are being progressively decoupled. The presence of free spins in granular Al films is directly demonstrated by μSR measurements. Analysis of the magnetoresistance in terms of an effective Fermi energy shows that it becomes of the order of the grains electrostatic charging energy at a room temperature resistivity ρ300K≈50000μΩcm, at which a metal to insulator transition is known to exist. As this transition is approached the magnetoresistance exhibits a heavy-fermion-like behavior, consistent with an increased electron effective mass.",

author = "N. Bachar and S. Lerer and A. Levy and S. Hacohen-Gourgy and B. Almog and H. Saadaoui and Z. Salman and E. Morenzoni and G. Deutscher",

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doi = "10.1103/PhysRevB.91.041123",

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AU - Bachar, N.

AU - Lerer, S.

AU - Levy, A.

AU - Hacohen-Gourgy, S.

AU - Almog, B.

AU - Saadaoui, H.

AU - Salman, Z.

AU - Morenzoni, E.

AU - Deutscher, G.

PY - 2015/1/29

Y1 - 2015/1/29

N2 - A Mott transition in granular Al films is observed by probing the increase of the spin-flip scattering rate of conduction electrons as the nanosize metallic grains are being progressively decoupled. The presence of free spins in granular Al films is directly demonstrated by μSR measurements. Analysis of the magnetoresistance in terms of an effective Fermi energy shows that it becomes of the order of the grains electrostatic charging energy at a room temperature resistivity ρ300K≈50000μΩcm, at which a metal to insulator transition is known to exist. As this transition is approached the magnetoresistance exhibits a heavy-fermion-like behavior, consistent with an increased electron effective mass.

AB - A Mott transition in granular Al films is observed by probing the increase of the spin-flip scattering rate of conduction electrons as the nanosize metallic grains are being progressively decoupled. The presence of free spins in granular Al films is directly demonstrated by μSR measurements. Analysis of the magnetoresistance in terms of an effective Fermi energy shows that it becomes of the order of the grains electrostatic charging energy at a room temperature resistivity ρ300K≈50000μΩcm, at which a metal to insulator transition is known to exist. As this transition is approached the magnetoresistance exhibits a heavy-fermion-like behavior, consistent with an increased electron effective mass.

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DO - 10.1103/PhysRevB.91.041123

M3 - مقالة

SN - 1098-0121

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

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ER -

Mott transition in granular aluminum

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