Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Lee, S.*; Nakata, Koki; Tchernyshyov, O.*; Kim, S. K.*
no journal, ,
Using supersymmetric quantum mechanics, we solve the scattering problem of magnons on top of the domain wall and obtain the exact solutions of propagating and bound magnon modes. We then find their properties of reflection and refraction in the Skyrmion textured domain wall, where magnons experience an emergent magnetic field due to its non-trivial spin texture induced effective gauge field. Next, we show that thermal transport decreases as the domain wall's chirality increases. Finally, thermal transport of an antiferromagnet is shown to be tunable by modulating the Skyrmion charge density of the domain wall, which might be useful for realizing electrically tunable spin caloritronic devices.
Araki, Yasufumi; Ieda, Junichi
no journal, ,
Uchino, Shun
no journal, ,
In mesoscopic systems with ultracold atomic gases, one can explore an effect of particle loss in the conduction channel region. In this talk, I will discuss transport characteristics in the presence of particle loss that can be obtained from an analysis based on the Keldysh and Lindblad formalisms.