Magnetic phases of spin-1 lattice gases with random interactions

Kenneth D. McAlpine; Simone Paganelli; Sergio Ciuchi; Anna Sanpera; Gabriele De Chiara

doi:10.1103/PhysRevB.95.235128

Magnetic phases of spin-1 lattice gases with random interactions

Kenneth D. McAlpine, Simone Paganelli, Sergio Ciuchi, Anna Sanpera, Gabriele De Chiara

Departament de Física

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© 2017 American Physical Society. A spin-1 atomic gas in an optical lattice, in the unit-filling Mott insulator (MI) phase and in the presence of disordered spin-dependent interaction, is considered. In this regime, at zero temperature, the system is well described by a disordered rotationally invariant spin-1 bilinear-biquadratic model. We study, via the density matrix renormalization group algorithm, a bounded disorder model such that the spin interactions can be locally either ferromagnetic or antiferromagnetic. Random interactions induce the appearance of a disordered ferromagnetic phase characterized by a nonvanishing value of the spin glass order parameter across the boundary between a ferromagnetic phase and a dimer phase exhibiting random singlet order. We also study the distribution of the block entanglement entropy in the different regions.

Idioma original	Anglès
Número d’article	235128
Revista	Physical Review B
Volum	95
Número	23
DOIs	https://doi.org/10.1103/PhysRevB.95.235128
Estat de la publicació	Publicada - 1 de gen. 2017

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10.1103/PhysRevB.95.235128

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title = "Magnetic phases of spin-1 lattice gases with random interactions",

abstract = "{\textcopyright} 2017 American Physical Society. A spin-1 atomic gas in an optical lattice, in the unit-filling Mott insulator (MI) phase and in the presence of disordered spin-dependent interaction, is considered. In this regime, at zero temperature, the system is well described by a disordered rotationally invariant spin-1 bilinear-biquadratic model. We study, via the density matrix renormalization group algorithm, a bounded disorder model such that the spin interactions can be locally either ferromagnetic or antiferromagnetic. Random interactions induce the appearance of a disordered ferromagnetic phase characterized by a nonvanishing value of the spin glass order parameter across the boundary between a ferromagnetic phase and a dimer phase exhibiting random singlet order. We also study the distribution of the block entanglement entropy in the different regions.",

author = "McAlpine, {Kenneth D.} and Simone Paganelli and Sergio Ciuchi and Anna Sanpera and {De Chiara}, Gabriele",

year = "2017",

month = jan,

day = "1",

doi = "10.1103/PhysRevB.95.235128",

language = "English",

volume = "95",

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TY - JOUR

T1 - Magnetic phases of spin-1 lattice gases with random interactions

AU - McAlpine, Kenneth D.

AU - Paganelli, Simone

AU - Ciuchi, Sergio

AU - Sanpera, Anna

AU - De Chiara, Gabriele

PY - 2017/1/1

Y1 - 2017/1/1

N2 - © 2017 American Physical Society. A spin-1 atomic gas in an optical lattice, in the unit-filling Mott insulator (MI) phase and in the presence of disordered spin-dependent interaction, is considered. In this regime, at zero temperature, the system is well described by a disordered rotationally invariant spin-1 bilinear-biquadratic model. We study, via the density matrix renormalization group algorithm, a bounded disorder model such that the spin interactions can be locally either ferromagnetic or antiferromagnetic. Random interactions induce the appearance of a disordered ferromagnetic phase characterized by a nonvanishing value of the spin glass order parameter across the boundary between a ferromagnetic phase and a dimer phase exhibiting random singlet order. We also study the distribution of the block entanglement entropy in the different regions.

AB - © 2017 American Physical Society. A spin-1 atomic gas in an optical lattice, in the unit-filling Mott insulator (MI) phase and in the presence of disordered spin-dependent interaction, is considered. In this regime, at zero temperature, the system is well described by a disordered rotationally invariant spin-1 bilinear-biquadratic model. We study, via the density matrix renormalization group algorithm, a bounded disorder model such that the spin interactions can be locally either ferromagnetic or antiferromagnetic. Random interactions induce the appearance of a disordered ferromagnetic phase characterized by a nonvanishing value of the spin glass order parameter across the boundary between a ferromagnetic phase and a dimer phase exhibiting random singlet order. We also study the distribution of the block entanglement entropy in the different regions.

U2 - 10.1103/PhysRevB.95.235128

DO - 10.1103/PhysRevB.95.235128

M3 - Article

SN - 2469-9950

VL - 95

JO - Physical Review B

JF - Physical Review B

IS - 23

M1 - 235128

ER -

Magnetic phases of spin-1 lattice gases with random interactions

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