BaDElPh Highlights
- BaDElPh Highlights
- Anomalies at the DP in graphene
- CDW & Kondo effect in a Dirac semimetal
- QWS on bilayer graphene
- Flat band in graphene
- Antiferromagnetic TI
- MoS2 on Gr/Ir(111)
- EAL of low-energy electrons in solids
- SC in few-monolayer MgB2
- SOC induced gap in graphene
- Li-doped black phosphorous
- Rashba coupling amplification in BaNiS2
- High-quality graphene
- EPC and SC in graphene
- Surface-enhanced CDW in UD Bi(2201)
- Origin of electron accumulation in In2O3
- Impurity state in H-Graphene
- Gap and orbital character in Ba(FeCo)2As2
- Surface-umklapp at an organic-metal interface
- Quasiparticles at the Mott transition in V2O3
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Cs quantum wells on bilayer graphene
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We have investigated the growth of a few-layer Cs quantum well on top of a bilayer graphene substrate grown on top of an Ir(111). ARPES reveals four new parabolic electronic bands centered at Γ which arise from the growth of Cs quantum wells. The Cs layers grown on the bilayer graphene substrate have an in-plane strain of 11%. Cs grows in this multi-layered way rather than clustering up, because of its low cohesive energy, favoring the adhesion to the graphene surface. Investigating the electronic structure of the resulting material, reveals the Cs quantum wells to be good approximations of 2D free electron gases. In the future, Cs could be used in electronic structure engineering, and could act as a buffer layer to grow other metals on top, establishing a method to form interfaces |
between van-der-Waals layered materials and metallic thin sheets. Retrieve articleMassive and massless charge carriers in an epitaxially strained alkali metal quantum well on graphene M. Hell, N. Ehlen, G. Marini, Y. Falke, B.V. Senkovskiy, C. Herbig, C. Teichert, W. Jolie, T. Michely, J. Avila, G. Di Santo, D.M. de la Torre, L. Petaccia, G. Profeta, A. Grüneis, Nat. Commun. 11, 1340 (2020). doi: 10.1038/s41467-020-15130-1 This work was selected as an Elettra Top Story. |
