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제목 | Mott-Hall Insulator and Chiral Spin Liquid Phase in Neutral Graphene in a Magnetic Field (Mott-Hall Insulator and Chiral Spin Liquid Phase in Neutral Graphene in a Magnetic Field) | |
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TYPE | Distinguished Lectures | |
DATE/TIME | 2009-12-02 ~ 2009-12-02 | |
PLACE | APCTP Seminar Room (APCTP Seminar Room) | |
SPEAKER | Prof. Ganapathy Baskaran (Prof. Ganapathy Baskaran) | |
AFFILIATION | Institute of Mathematical Sciences (Institute of Mathematical Sciences) | |
* 행사명 : Mott-Hall Insulator and Chiral Spin Liquid Phase in Neutral Graphene in a Magnetic Field * 연 사: Prof. Ganapathy Baskaran (Institute of Mathematical Sciences) * 일 시: Dec. 2 (Wed) 16:30 * 장 소: #512, Hogil Kim Memorial Bldg., POSTECH * Title : Mott-Hall Insulator and Chiral Spin Liquid Phase in Neutral Graphene in a Magnetic Field * Speaker: Prof. Ganapathy Baskaran (Institute of Mathematical Sciences) * Date & Time: Dec. 2 (Wed) 16:30 * Place: #512, Hogil Kim Memorial Bldg., POSTECH * Abstract: Neutral graphene in a magnetic field exhibits an unexpected insulating phase and a missing quantum Hall plateau. Electrons in graphene in a magnetic field has $2N_B$ fold degenerate n = 0 single particle Landau levels from two valleys and exactly $2N_B$ spinful electrons. Here $N_B$ is the number of elementary magnetic flux quanta threading the sample. We develop a microscopic theory where, at low energy scales, a complete set of $2N_B$ single particle Landau-Gaussian orbitals forming a exit{Von Neuman lattice} have single electron occupancy and dangling spins. Certain novel superexchange interaction among spins destabilise the exchange induced quantum Hall ferromagnetism, decouple spin from charge and organize spins into a chiral spin liquid state. Charged excitations have a Mott gap and spin excitations are either gapless or have a smaller gap. Spin charge separation removes edge channels for spinful electrons and prevents Hall plateau formation. 첨부파일 |