Magic-angle twisted trilayer graphene (MATTG) recently emerged as a highly\ntunable platform for studying correlated phases of matter, such as correlated\ninsulators and superconductivity. Superconductivity occurs in a range of doping\nlevels that is bounded by van Hove singularities which stimulates ...
Magic-angle twisted trilayer graphene (MATTG) exhibits a range of strongly correlated electronic phases that spontaneously break its underlying symmetries1,2. Here we investigate the correlated phases of MATTG using scanning tunnelling microscopy and identify marked signatures of interaction-driven spatial...
The discovery of magic-angle twisted trilayer graphene unlocks various properties of the superconducting phase, such as violation of the Pauli limit and re-entrant superconductivity at large in-plane magnetic fields1,2,3. Here we integrate magic-angle twisted trilayer graphene into a double-layer st...
The observation of correlated insulating states and unconventional superconductivity on magic-angle twisted bilayer graphene (MATBG) by Cao and Jarillo-Herrero in 2018 has aroused intensive scientific interest in the beautiful moiré-patterned superlattice. The magic angles are a discrete set of angles ...
In particular, only alternating twisted stacking geometries of bilayer and trilayer graphene are found to exhibit robust superconductivity manifesting as zero resistance and Fraunhofer interference patterns. Here we demonstrate that magic-angle twisted tri-, quadri-, and pentalayers placed on monolayer ...
MIT physicists have observed signs of a rare type of superconductivity in a material called “magic-angle” twisted trilayer graphene. Credit: Courtesy of Pablo Jarillo-Herrero, Yuan Cao, Jeong Min Park, et al New findings might help inform the design of more powerful MRI machin...
Here, we show that magic-angle twisted trilayer graphene (MATTG) exhibits superconductivity up to in-plane magnetic fields in excess of 10 T, which represents a large ( 2\\sim3 2\\sim3 times) violation of the Pauli limit for conventional spin-singlet superconductors. This observation is ...
Cao et al. (Nature 2021, 595, 526) reported that the magic-angle twisted trilayer graphene (MATNG, N = 3) exhibits the upper critical field which exceeds the Pauli limiting field by two to three times. This observation was interpreted as a violation of the Pauli-limiting field ...
Magic angle and plasmon mode engineering in twisted trilayer graphene with pressureShengjun YuanXueheng KuangZewen WuZhen Zhan
For instance, similar replica flat bands may emerge in superconducting magic-angle twisted trilayer graphene49, whereas they may be absent in non-superconducting twisted monolayer–bilayer graphene50. Furthermore, we expect that the distinctive capabilities of μ-ARPES (and more advanced nano-ARPES) ...