Strong electronic interaction and multiple quantum Hall ferromagnetic phases in trilayer graphene

Datta, Biswajit; Dey, Santanu; Samanta, Abhisek; Agarwal, Hitesh; Borah, Abhinandan; Watanabe, Kenji; Taniguchi, Takashi; Sensarma, Rajdeep; Deshmukh, Mandar M.

doi:10.1038/ncomms14518

Cited by 28 publications

(41 citation statements)

References 38 publications

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“…On comparing these results with the experimental data presented in recently reported in [34]. Our results, in combination with the states observed in Ref.…”

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confidence: 80%

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Intersubband Landau Level Couplings Induced by In-Plane Magnetic Fields in Trilayer Graphene

et al. 2017

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“…On comparing these results with the experimental data presented in recently reported in [34]. Our results, in combination with the states observed in Ref.…”

supporting

confidence: 80%

“…R xx minima, represented by the blue stripes in Fig. 1 ferromagnetism [34]. In this work, we focus our attention on the remaining LL crossings.…”

mentioning

confidence: 99%

Intersubband Landau Level Couplings Induced by In-Plane Magnetic Fields in Trilayer Graphene

et al. 2017

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“…It also differs from systems with default-localized states with a strong Columbic repulsion (or a small hopping t ), such as the localized orbitals 32,33 in organic compounds 34–36 and nano-carbon structures 37–40 . Apparently, it is also different from magnetism induced by external electrical or magnetic fields 41–43 .…”

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confidence: 93%

A Lieb-like lattice in a covalent-organic framework and its Stoner ferromagnetism

2019

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Lieb lattice has been extensively studied to realize ferromagnetism due to its exotic flat band. However, its material realization has remained elusive; so far only artificial Lieb lattices have been made experimentally. Here, based on first-principles and tight-binding calculations, we discover that a recently synthesized two-dimensional sp 2 carbon-conjugated covalent-organic framework ( sp 2 c-COF) represents a material realization of a Lieb-like lattice. The observed ferromagnetism upon doping arises from a Dirac (valence) band in a non-ideal Lieb lattice with strong electronic inhomogeneity (EI) rather than the topological flat band in an ideal Lieb lattice. The EI, as characterized with a large on-site energy difference and a strong dimerization interaction between the corner and edge-center ligands, quenches the kinetic energy of the usual dispersive Dirac band, subjecting to an instability against spin polarization. We predict an even higher spin density for monolayer sp 2 c-COF to accommodate a higher doping concentration with reduced interlayer interaction.

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“…The two variants, namely Bernal (ABA) [7][8][9][10][11][12][13][14][15][16][17][18] and rhombohedral (ABC) [19][20][21][22][23][24][25][26] stackings have been studied for their tunable symmetries. ABA-stacked TLG has a rich low energy bandstructure consisting of a monolayer graphene (MLG)-like linear and a bilayer graphene (BLG)-like quadratic bands 27,28 .…”

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confidence: 99%

Landau Level Diagram and the Continuous Rotational Symmetry Breaking in Trilayer Graphene

et al. 2018

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The sequence of the zeroth Landau levels (LLs) between filling factors ν=-6 to 6 in ABA-stacked trilayer graphene (TLG) is unknown because it depends sensitively on the nonuniform charge distribution on the three layers of ABA-stacked TLG. Using the sensitivity of quantum Hall data on the electric field and magnetic field, in an ultraclean ABA-stacked TLG sample, we quantitatively estimate the nonuniformity of the electric field and determine the sequence of the zeroth LLs. We also observe anticrossings between some LLs differing by 3 in LL index, which result from the breaking of the continuous rotational to C_{3} symmetry by the trigonal warping.

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Strong electronic interaction and multiple quantum Hall ferromagnetic phases in trilayer graphene

Cited by 28 publications

References 38 publications

Intersubband Landau Level Couplings Induced by In-Plane Magnetic Fields in Trilayer Graphene

Intersubband Landau Level Couplings Induced by In-Plane Magnetic Fields in Trilayer Graphene

A Lieb-like lattice in a covalent-organic framework and its Stoner ferromagnetism

Landau Level Diagram and the Continuous Rotational Symmetry Breaking in Trilayer Graphene

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