Event DetailsEvent Dates: Tuesday, January 26, 2016 - 2:30pmSeminar Location: OtherSeminar Location Other: Engineering Building Room ECCR 257Speaker Name(s): Yaroslav TserkovnyakSpeaker Affiliation(s): UCLA Seminar Type/SubjectEvent Details & Abstract: The nature of spin transport through insulating magnetic heterostructures is intricately tied to heat flows. In this talk, I will discuss several scenarios that illustrate the resultant interplay between the macroscopic and microscopic magnetic dynamics engendered by thermal gradients. (1) At normal-metal/insulating-ferromagnet interfaces, thermal magnons carry both heat and spin currents, with the latter having components along and transverse to the magnetic order parameter. The longitudinal component is responsible for the spin Seebeck and spin Peltier effects, while the transverse component for the spin torque and spin pumping associated with the coherent dynamics of the magnetic order parameter. This sets the stage for an interplay between the incoherent transport of thermal magnons, on the one hand, and coherent (macroscopic) magnetic dynamics, on the other. (2) A highly nonlinear limit of this physics leads to bosonic condensation of thermal magnons and ensuing spin superfluidity. In this regime, both spin and heat can be carried collectively, in close analogy to two-fluid hydrodynamics of superfluid helium. (3) Finally, I will address the problem of thermally-induced magnetic domain wall motion, another example of the coupling between coherent and incoherent degrees of freedom triggered by thermal gradients.