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Thermal Transport Properties of Graphene-Based F/S/F Junctions

We present an investigation of heat transport in gapless graphene-based Ferromagnetic /singlet Superconductor/Ferromagnetic (FG$\mid$SG$\mid$FG) junctions. We find that unlike uniform increase of thermal conductance vs temperature, the thermal conductance exhibits intensive oscillatory behavior vs width of the sandwiched s-wave superconducting region between the two ferromagnetic layers. This oscillatory form is occurred by interference of the massless Dirac fermions in graphene. Also we find that the thermal conductance vs exchange field $h$ displays a minimal value at $h/E_F\simeq 1$ within the low temperature regime where this finding demonstrates that propagating modes of the Dirac fermions in this value reach at their minimum numbers and verifies the previous results for electronic conductance. We find that for thin widths of superconducting region, the thermal conductance vs temperature shows linear increment i.e. $Γ\varpropto T$. At last we propose an experimental set-up to detect our predicted effects.

preprint2011arXivOpen access
Morteza SalehiMohammad AlidoustYousef RahnavardGholamreza Rashedi
cond-mat.supr-con
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Morteza SalehiMohammad AlidoustYousef RahnavardGholamreza Rashedi

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