Peter Rickhaus
Peter Rickhaus
Verified email at
Cited by
Cited by
Ballistic interferences in suspended graphene
P Rickhaus, R Maurand, MH Liu, M Weiss, K Richter, C Schönenberger
Nature communications 4 (1), 2342, 2013
Transport through a network of topological channels in twisted bilayer graphene
P Rickhaus, J Wallbank, S Slizovskiy, R Pisoni, H Overweg, Y Lee, M Eich, ...
Nano letters 18 (11), 6725-6730, 2018
Spin and valley states in gate-defined bilayer graphene quantum dots
M Eich, F Herman, R Pisoni, H Overweg, A Kurzmann, Y Lee, P Rickhaus, ...
Physical Review X 8 (3), 031023, 2018
Snake trajectories in ultraclean graphene p–n junctions
P Rickhaus, P Makk, MH Liu, E Tóvári, M Weiss, R Maurand, K Richter, ...
Nature communications 6 (1), 6470, 2015
Quantum Hall effect in graphene with superconducting electrodes
P Rickhaus, M Weiss, L Marot, C Schönenberger
Nano letters 12 (4), 1942-1945, 2012
Interactions and Magnetotransport through Spin-Valley Coupled Landau Levels in Monolayer
R Pisoni, A Kormányos, M Brooks, Z Lei, P Back, M Eich, H Overweg, ...
Physical review letters 121 (24), 247701, 2018
Electrostatically induced quantum point contacts in bilayer graphene
H Overweg, H Eggimann, X Chen, S Slizovskiy, M Eich, R Pisoni, Y Lee, ...
Nano letters 18 (1), 553-559, 2018
Scalable tight-binding model for graphene
MH Liu, P Rickhaus, P Makk, E Tóvári, R Maurand, F Tkatschenko, ...
Physical review letters 114 (3), 036601, 2015
Guiding of electrons in a few-mode ballistic graphene channel
P Rickhaus, MH Liu, P Makk, R Maurand, S Hess, S Zihlmann, M Weiss, ...
Nano letters 15 (9), 5819-5825, 2015
Excited states in bilayer graphene quantum dots
A Kurzmann, M Eich, H Overweg, M Mangold, F Herman, P Rickhaus, ...
Physical review letters 123 (2), 026803, 2019
Coupled quantum dots in bilayer graphene
M Eich, R Pisoni, A Pally, H Overweg, A Kurzmann, Y Lee, P Rickhaus, ...
Nano letters 18 (8), 5042-5048, 2018
Gate-defined Josephson junctions in magic-angle twisted bilayer graphene
FK de Vries, E Portolés, G Zheng, T Taniguchi, K Watanabe, T Ihn, ...
Nature Nanotechnology 16 (7), 760-763, 2021
Gate tuneable beamsplitter in ballistic graphene
P Rickhaus, P Makk, MH Liu, K Richter, C Schönenberger
Applied Physics Letters 107 (25), 2015
Charge detection in gate-defined bilayer graphene quantum dots
A Kurzmann, H Overweg, M Eich, A Pally, P Rickhaus, R Pisoni, Y Lee, ...
Nano letters 19 (8), 5216-5221, 2019
Tunable valley splitting due to topological orbital magnetic moment in bilayer graphene quantum point contacts
Y Lee, A Knothe, H Overweg, M Eich, C Gold, A Kurzmann, V Klasovika, ...
Physical review letters 124 (12), 126802, 2020
Topologically nontrivial valley states in bilayer graphene quantum point contacts
H Overweg, A Knothe, T Fabian, L Linhart, P Rickhaus, L Wernli, ...
Physical review letters 121 (25), 257702, 2018
Correlated electron-hole state in twisted double-bilayer graphene
P Rickhaus, FK de Vries, J Zhu, E Portoles, G Zheng, M Masseroni, ...
Science 373 (6560), 1257-1260, 2021
Gap opening in twisted double bilayer graphene by crystal fields
P Rickhaus, G Zheng, JL Lado, Y Lee, A Kurzmann, M Eich, R Pisoni, ...
Nano letters 19 (12), 8821-8828, 2019
The electronic thickness of graphene
P Rickhaus, MH Liu, M Kurpas, A Kurzmann, Y Lee, H Overweg, M Eich, ...
Science advances 6 (11), eaay8409, 2020
Fabry-pérot resonances in a graphene/hbn moiré superlattice
C Handschin, P Makk, P Rickhaus, MH Liu, K Watanabe, T Taniguchi, ...
Nano letters 17 (1), 328-333, 2017
The system can't perform the operation now. Try again later.
Articles 1–20