2013
DOI: 10.1103/physrevb.87.085413
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Orbital Lamb shift and mixing of the pseudo-zero-mode Landau levels inABC-stacked trilayer graphene

Abstract: In a magnetic field graphene trilayers support a characteristic multiplet of 12 zero(-energy)-mode Landau levels with a threefold degeneracy in Landau orbitals. It was earlier noted for bilayer graphene that Coulombic vacuum fluctuations, specific to graphene, lift the orbital degeneracy of such zero-energy modes and that these "Lamb-shfted" orbital modes, with filling, get mixed via the Coulomb interaction. It is pointed out that analogous orbital Lamb shift and mixing of zero-mode levels can also take place,… Show more

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Cited by 7 publications
(14 citation statements)
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“…Using symmetry considerations, it can be proven that g x = g y ≡ g ⊥ [21,37], so there are only two independent coupling constants g ⊥ , g z . The potential V DS (x, x ′ ) represents the mean-field interaction of the ZLL with the (inert) Dirac sea compound by all the occupied states with n ≤ −2 [20,26,45]. As shown in Appendix A 2, this potential is diagonal within the ZLL; its explicit expression is given by Eq.…”
Section: B Projection Onto the Zero Landau Levelmentioning
confidence: 99%
“…Using symmetry considerations, it can be proven that g x = g y ≡ g ⊥ [21,37], so there are only two independent coupling constants g ⊥ , g z . The potential V DS (x, x ′ ) represents the mean-field interaction of the ZLL with the (inert) Dirac sea compound by all the occupied states with n ≤ −2 [20,26,45]. As shown in Appendix A 2, this potential is diagonal within the ZLL; its explicit expression is given by Eq.…”
Section: B Projection Onto the Zero Landau Levelmentioning
confidence: 99%
“…Each zero-mode level, subjected to quantum fluctuations of the valence band, gets shifted differently within the LLL, just like the Lamb shift 19 in the hydrogen atom. This orbital Lamb shift was first noted 20 for bilayer graphene and is also realized in an analogous fashion 21 in rhombohedral (ABC-stacked) trilayer graphene, which is a "chiral" trilayer generalization of bilayer graphene. This orbital shift is considerably larger in scale than intrinsic spin or valley breaking, and one has to take it into account in clarifying the fine structure of the LLL in multilayers.…”
Section: 18mentioning
confidence: 67%
“…It turned out that ABA trilayers are distinct in zero-mode characteristics from ABC trilayers examined earlier. 21 We have, in particular, seen that both valley and eh symmetries are markedly broken in the LLL of ABA trilayers. These asymmetries appear in the one-body spectra {ǫ h n } already to first order in nonleading hopping parameters (such as γ 2 , γ 5 and ∆ ′ ), and are enhanced via the Lamb-shift contributions {ǫ v n } and the Coulomb interaction acting within the LLL.…”
Section: Summary and Discussionmentioning
confidence: 93%
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“…We set θ m>M,ξσ = 0 and utilize the identity ∞ n=0 |F n ′ n (k)| 2 = 1 for arbitrary n ′ , for reducing infinite summations of exchange integrals to finite sums, plus a featureless divergent constant we omit. 8,9,16 The exchange field is still due to all filled levels; we merely treat the low-lying ones as inert. The charge distribution w ± for the optimized parameters are shown in Fig.…”
Section: For Bilayer Grapheneĥ (2)mentioning
confidence: 99%