Seminars
June 10, 2013
CHUN NING (JEANIE) LAU 'Quantum Transport and Correlated Phenomena in Bilayer and Trilayer Graphene Membranes'
CHUN NING (JEANIE) LAU 'Quantum Transport and Correlated Phenomena in Bilayer and Trilayer Graphene Membranes'
CHUN NING (JEANIE) LAU
Seminar, June 10, 2013, 15:00. Seminar Room
CHUN NING (JEANIE) LAU
Department of Physics
University of California, Riverside, UNITED STATES
CHUN NING (JEANIE) LAU
Department of Physics
University of California, Riverside, UNITED STATES
Graphene, a two - dimensional single atomic layer of carbon, has recently emerged as a new model system for condensed matter physics, as well as a promising candidate for electronic materials. Though single layer graphene is gapless, bilayer and trilayer graphene have tunable band gaps that may be induced by out-of-plane electric fields or arise from collective excitation of electrons. Here I will present our results on transport measurements in bilayer and trilayer graphene devices with mobility as high as 400,000 cm2/Vs. We demonstrate the presence of an intrinsic gapped state in bilayer graphene at the charge neutrality point, evidence for quantum phase tranisition, and stacking-order dependent transport in trilayer graphene. Our results underscore the fascinating many-body physics in these 2D membranes, and have implications for band gap engineering for graphene electronics and optoelectronic applications.
Seminar, June 10, 2013, 15:00. Seminar Room
Hosted by Prof. Frank Koppens
Seminar, June 10, 2013, 15:00. Seminar Room
Hosted by Prof. Frank Koppens
Seminars
June 10, 2013
CHUN NING (JEANIE) LAU 'Quantum Transport and Correlated Phenomena in Bilayer and Trilayer Graphene Membranes'
CHUN NING (JEANIE) LAU 'Quantum Transport and Correlated Phenomena in Bilayer and Trilayer Graphene Membranes'
CHUN NING (JEANIE) LAU
Seminar, June 10, 2013, 15:00. Seminar Room
CHUN NING (JEANIE) LAU
Department of Physics
University of California, Riverside, UNITED STATES
CHUN NING (JEANIE) LAU
Department of Physics
University of California, Riverside, UNITED STATES
Graphene, a two - dimensional single atomic layer of carbon, has recently emerged as a new model system for condensed matter physics, as well as a promising candidate for electronic materials. Though single layer graphene is gapless, bilayer and trilayer graphene have tunable band gaps that may be induced by out-of-plane electric fields or arise from collective excitation of electrons. Here I will present our results on transport measurements in bilayer and trilayer graphene devices with mobility as high as 400,000 cm2/Vs. We demonstrate the presence of an intrinsic gapped state in bilayer graphene at the charge neutrality point, evidence for quantum phase tranisition, and stacking-order dependent transport in trilayer graphene. Our results underscore the fascinating many-body physics in these 2D membranes, and have implications for band gap engineering for graphene electronics and optoelectronic applications.
Seminar, June 10, 2013, 15:00. Seminar Room
Hosted by Prof. Frank Koppens
Seminar, June 10, 2013, 15:00. Seminar Room
Hosted by Prof. Frank Koppens