* PHYSICS/BK21 SEMINAR *
관련링크
본문
Quantum Transport in Graphene Nanoribbons
연사: Dr. Barbaros Oezyilmaz[Department[Department of Physics, Columbia University]
일시: 2007 년 5 월 15 일 13:30-14:30
장소: 물리학과 세미나실(공학3동 201호)
ABSTRACT:
Recently it has become possible to fabricate atomically thin sheets of graphite, which are referred to as graphene. Graphene is a strictly 2D crystal and can be viewed as an unrolled single walled carbon nanotube. Its unique band structure resultsin remarkable electronic transport properties that are fundamentally different from conventional 2D systems realized in semiconducting heterostructures. The most intriguing example is the unusual quantization of the Quantum Hall effect. Furthermore, graphene is likely to become an important material system in the fields of nanotechnology and spintronics. For example, its mean free path and both its phase and spin coherence length are expected to be very long. Nanostructured graphene reveals a number of exciting properties. For example, I will show that the finite size of narrow graphene ribbons (~20 nm) leads to the formation of a band-gap. Furthermore, the phase -coherence length in nanostructured graphene is of the order 1 m. Such a long phase coherence length allows the direct observation of quantum interference phenomena in ring shaped ribbons. I will continue my talk with experiments in which we locally modulate the carrier density in graphene ribbons by means of a top gate. These studies allow us to explore the rich physics of graphene based pn-junctions.I will conclude with experiments addressing the spin coherence length in graphene. Here the spin injection has been achieved by means of ferromagnetic Co/Cu/Co multilayer electrodes.
문의처: 이후종(054-279-2072, hjlee@postech.ac.kr)
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