Your search keyword '"Abergel D"' showing total 10 results

1. Interacting Dirac materials

Author

Banerjee, S., Abergel, D. S. L., Ågren, Hans, Aeppli, G., Balatsky, A. , V, Banerjee, S., Abergel, D. S. L., Ågren, Hans, Aeppli, G., and Balatsky, A. , V

Abstract

We investigate the extent to which the class of Dirac materials in two-dimensions provides general statements about the behavior of both fermionic and bosonic Dirac quasiparticles in the interacting regime. For both quasiparticle types, we find common features for the interaction induced renormalization of the conical Dirac spectrum. We perform the perturbative renormalization analysis and compute the self-energy for both quasiparticle types with different interactions and collate previous results from the literature whenever necessary. Guided by the systematic presentation of our results in table1, we conclude that long-range interactions generically lead to an increase of the slope of the single-particle Dirac cone, whereas short-range interactions lead to a decrease. The quasiparticle statistics does not qualitatively impact the self-energy correction for long-range repulsion but does affect the behavior of short-range coupled systems, giving rise to different thermal power-law contributions. The possibility of a universal description of the Dirac materials based on these features is also mentioned.

Published

2020

2. True Bilayer Exciton Condensate of One-Dimensional Electrons

Author

Kantian, A., Abergel, D. S. L., Kantian, A., and Abergel, D. S. L.

Abstract

We theoretically predict that a true bilayer exciton condensate, characterized by off-diagonal long-range order and global phase coherence, can be created in one-dimensional solid state electron systems. The mechanism by which this happens is to introduce a single particle hybridization of electron and hole populations, which locks the phase of the relevant mode and hence invalidates the Mermin-Wagner theorem. Electron-hole interactions then amplify this tendency towards off-diagonal long-range order, enhancing the condensate properties by more than an order of magnitude over the noninteracting limit. We show that the temperatures below which a substantial condensate fraction would form could reach hundreds of Kelvin, a benefit of the weak screening in one-dimensional systems.

Published

2017

3. Weakly damped acoustic plasmon mode in transition metal dichalcogenides with Zeeman splitting

Author

Kechedzhi, K., Abergel, D. S. L., Kechedzhi, K., and Abergel, D. S. L.

Abstract

We analyze the effect of a strong Zeeman field on the spectrum of collective excitations of monolayer transition metal dichalcogenides. The combination of the Dresselhaus-type spin-orbit coupling and an external Zeeman field results in the lifting of the valley degeneracy in the valence band of these crystals. We show that this lifting of the valley degeneracy manifests in the appearance of an additional plasmon mode with linear in wave-number dispersion along with the standard square root in wave-number mode. Despite this novel mode being subject to Landau damping, it corresponds to a well-defined quasiparticle peak in the spectral function of the electron gas., AuthorCount:2

Published

2014

4. Optical manifestations of symmetry breaking in bilayer graphene

Author

Abergel, D. S. L., Falko, Vladimir, Abergel, D. S. L., and Falko, Vladimir

Abstract

We propose a spectroscopic method of identifying broken symmetry states of bilayer graphene. We demonstrate theoretically that, in contrast to gapped states, a strained bilayer crystal or nematic phase of the electronic liquid are distinguishable by the dependence of the line shape of absorption on the polarization of the light. This property is characteristic for both the infrared and far-infrared spectral ranges, which correspond to the absorption by transitions between low-energy bands and split bands, and transitions between the low-energy valence and conduction bands, respectively.

Published

2012

5. Optical manifestations of symmetry breaking in bilayer graphene

Author

Abergel, D. S. L., Falko, Vladimir, Abergel, D. S. L., and Falko, Vladimir

Abstract

We propose a spectroscopic method of identifying broken symmetry states of bilayer graphene. We demonstrate theoretically that, in contrast to gapped states, a strained bilayer crystal or nematic phase of the electronic liquid are distinguishable by the dependence of the line shape of absorption on the polarization of the light. This property is characteristic for both the infrared and far-infrared spectral ranges, which correspond to the absorption by transitions between low-energy bands and split bands, and transitions between the low-energy valence and conduction bands, respectively.

Published

2012

6. On spectral properties of bilayer graphene:the effect of an SiC substrate and infrared magneto-spectroscopy

Author

Mucha Kruczynski, Marcin, Abergel, D. S. L., McCann, E., Falko, Vladimir, Mucha Kruczynski, Marcin, Abergel, D. S. L., McCann, E., and Falko, Vladimir

Abstract

We investigate the effect of asymmetry in bilayer graphene induced by a diatomic substrate (such as SiC) and its influence on the bilayer spectrum in zero and strong magnetic fields. We also determine selection rules for inter-Landau level transitions, taking into account all four pi bands.

Published

2009

7. On spectral properties of bilayer graphene:the effect of an SiC substrate and infrared magneto-spectroscopy

Author

Mucha Kruczynski, Marcin, Abergel, D. S. L., McCann, E., Falko, Vladimir, Mucha Kruczynski, Marcin, Abergel, D. S. L., McCann, E., and Falko, Vladimir

Abstract

We investigate the effect of asymmetry in bilayer graphene induced by a diatomic substrate (such as SiC) and its influence on the bilayer spectrum in zero and strong magnetic fields. We also determine selection rules for inter-Landau level transitions, taking into account all four pi bands.

Published

2009

8. Spin-orbit-assisted electron-phonon interaction and the magnetophonon resonance in semiconductor quantum wells

Author

Abergel, D. S. L., Falko, Vladimir, Abergel, D. S. L., and Falko, Vladimir

Abstract

We introduce a spin-orbit assisted electron-phonon (e-ph) coupling mechanism for carriers in semiconductor quantum wells and predict qualitatively the form and shape of anticrossings between the cyclotron resonance (CR) and optical (LO and TO) phonons. Since this e-ph interaction involves the electron spin it makes the predicted TO-CR anticrossing dependent on the filling factor and therefore on the spin polarization of the two-dimensional electron gas in the quantum well.

Published

2008

9. Optical and magneto-optical far-infrared properties of bilayer graphene.

Author

Abergel, D. S. L., Falko, Vladimir I., Abergel, D. S. L., and Falko, Vladimir I.

Abstract

We analyze the spectroscopic features of bilayer graphene determined by the formation of pairs of low-energy and split bands in this material. We show that the inter-Landau-level absorption spectrum in bilayer graphene at high magnetic field is much denser in the far-infrared range than that in monolayer material and that the polarization dependence of its lowest-energy peak can be used to test the form of the bilayer ground state in the quantum Hall-effect regime.

Published

2007

10. Detection of the electron spin resonance of two-dimensional electrons at large wave vectors

Author

Kukushkin, I. V., Smet, J. H., Abergel, D. S. L., Falko, Vladimir, Wegscheider, W., von Klitzing, K., Kukushkin, I. V., Smet, J. H., Abergel, D. S. L., Falko, Vladimir, Wegscheider, W., and von Klitzing, K.

Abstract

We have investigated the electron spin resonance at nonzero wave vector in GaAs single quantum wells by combining the virtues of high frequency surface acoustic wave generation to produce excitations with large wave numbers with a sensitive optical scheme to detect resonant absorption. The observed large deviations from the single particle Zeeman energy are attributed to the exchange interaction. The enhancement of the electronic g(*) factor is, however, substantially smaller compared with theoretical predictions for spin waves when adopting a bare Coulomb interaction potential.

Published

2006