Dynamic screening and low-energy collective modes in bilayer graphene
نویسندگان
چکیده
We theoretically study the dynamic screening properties of bilayer graphene within the random-phase approximation assuming quadratic band dispersion and zero gap for the single-particle spectrum. We calculate the frequency-dependent dielectric function of the system and obtain the low-energy plasmon dispersion and broadening of the plasmon modes from the dielectric function. We also calculate the optical spectral weight i.e., the dynamical structure factor for the system. We find that the leading-order long-wavelength limit of the plasmon dispersion matches with the classical result for two-dimensional electron gas. However, contrary to electron-gas systems, the nonlocal plasmon dispersion corrections decrease the plasmon frequency. The nonlocal corrections are also different from the single-layer graphene. Finally, we also compare our results with the double-layer graphene system i.e., a system of two independent graphene monolayers .
منابع مشابه
Dielectric screening and plasmons in AA-stacked bilayer graphene
The screening properties and collective excitations (plasmons) in AA-stacked bilayer graphene are studied within the random phase approximation. Whereas long-lived plasmons in single-layer graphene and in AB-stacked bilayer graphene can exist only in doped samples, we find that coherent plasmons can disperse in AA-stacked bilayer graphene even in the absence of doping. Moreover, we show that th...
متن کاملScreening and collective modes in gapped bilayer graphene
We study the static and dynamic screening of gapped AB-stacked bilayer graphene. Unlike previous works we use the full 4-band model instead of the simplified 2-band model. We find that there are important qualitative differences between the dielectric screening function obtained using the simplified 2-band model and the 4-band model. In particular, within the 4-band model, in the presence of a ...
متن کاملSuperlensing with twisted bilayer graphene
The charge susceptibility of twisted bilayer graphene is investigated in the Dirac cone, respectively, randomphase approximation. For small enough twist angles θ ≲ 2° , we find genuine interband plasmons, i.e., collective excitonic modes that exist in the undoped material with an almost constant energy dispersion. In this regime, the loss function can be described as a Fano resonance, and we ar...
متن کاملPlasmonic Physics of 2D Crystalline Materials
Collective modes of doped two-dimensional crystalline materials, namely graphene, MoS2 and phosphorene, both monolayer and bilayer structures, are explored using the density functional theory simulations together with the random phase approximation. The many-body dielectric functions of the materials are calculated using an ab initio based model involving material-realistic physical properties....
متن کاملObservation of low energy Raman modes in twisted bilayer graphene.
Two new Raman modes below 100 cm(-1) are observed in twisted bilayer graphene grown by chemical vapor deposition. The two modes are observed in a small range of twisting angle at which the intensity of the G Raman peak is strongly enhanced, indicating that these low energy modes and the G Raman mode share the same resonance enhancement mechanism, as a function of twisting angle. The ~94 cm(-1) ...
متن کامل