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Seminar on Theoretical and Computational Physics:
TitleMagneto-thermopower of a quantum dot: effects of asymmetry in Kondo channels
SpeakerDr. Nguyen Thi Kim Thanh
AffiliationPhysics Department, University of Cincinnati & Center for Theoretical Physics, Institute of Physics
DateTuesday, 07-02-2012
Time10:00 AM
LocationMeeting room on the 1st floor, Institute of Physics, 10 Dao Tan, Ba Dinh, Hanoi
AbstractIn my presentation, I will talk about the effects of magnetic field on the thermoelectric coefficients (TCs) of a single-electron transistor based on a quantum dot strongly coupled to one lead by a single-mode quantum point contact (QPC) and weakly coupled to the second lead by a tunnel barrier. The magnetic field induces an asymmetry in transmission of spin-up and spin-down channels at the QPC. The result shows the appearance of two new energy scales: on the magnetic field (the field corresponding to a full polarization of the QPC) and: depending on a reflection amplitude and charging energy . The behavior of TCs is discussed in three regimes. The "giant Fermi liquid" regime in which the TCs behave as those in the Fermi liquid theory do at temperatures . Proximity to "strong non Fermi liquid" regime characterized by of thermopower can be seen at . The perturbative "weak non Fermi liquid" regime with holds at . The similarities of the model with multi-channel Kondo systems and possible experimental tests for verification of the non-Fermi-liquid transport through the quantum dot system are discussed.