Morteza Salehi scite author profile

We study the tunneling magneto-transport properties of the Ferromagnetic Insulator-Normal Insulator-Ferromagnetic Insulator(F|N|F) and Ferromagnetic Insulator-Barrier Insulator-Ferromagnetic Insulator (F|B|F) junctions on the surface of topological insulator in which in-plane magnetization directions of both ferromagnetic sides can be parallel and antiparallel. We derive analytical expressions for electronic conductances of the two mentioned junctions with both parallel and antiparallel directions of magnetization and using them calculate magnetoresistance of the two junctions. We use thin barrier approximation for investigating the F|B|F junction. We find that although magnetoresistance of the F|N|F and F|B|F junctions are tunable by changing the strength of magnetization texture, they show different behaviors with variation of magnetization. In contrast to the magnetoresistance of F|N|F, magnetoresistance of F|B|F junctions shows very smooth enhance by increasing the strength of magnetization. We suggest an experimental set up to detect our predicted effects.

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Thermal transport properties of graphene-based ferromagnetic/singlet superconductor/ferromagnetic junctions

Salehi¹,

Alidoust²,

Rahnavard³

et al. 2010

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We present an investigation of heat transport in gapless graphene-based Ferromagnetic /singlet Superconductor/Ferromagnetic (FG|SG|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 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 ∝ T . At last we propose an experimental set-up to detect our predicted effects.

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Sea of Majorana fermions from pseudo-scalar superconducting order in three dimensional Dirac materials

Salehi¹,

Jafari²

2017

Sci Rep

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We suggest that spin-singlet pseudo-scalar s-wave superconducting pairing creates a two dimensional sea of Majorana fermions on the surface of three dimensional Dirac superconductors (3DDS). This pseudo-scalar superconducting order parameter Δ5, in competition with scalar Dirac mass m, leads to a topological phase transition due to band inversion. We find that a perfect Andreev-Klein reflection is guaranteed by presence of anomalous Andreev reflection along with the conventional one. This effect manifests itself in a resonant peak of the differential conductance. Furthermore, Josephson current of the Δ5|m|Δ5 junction in the presence of anomalous Andreev reflection is fractional with 4π period. Our finding suggests another search area for condensed matter realization of Majorana fermions which are beyond the vortex-core of p-wave superconductors. The required Δ5 pairing can be extrinsically induced by a conventional s-wave superconductor into a three dimensional Dirac material (3DDM).

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Signatures of d-wave symmetry on thermal Dirac fermions in graphene-based F|I|d junctions

Salehi

Alidoust

Rashedi

2010

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Spin-polarized conductance in graphene-based FSF junctions

Salehi

Rashedi

2010

Physica C: Superconductivity and its Applications

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Morteza Salehi

In-plane magnetoresistance on the surface of topological insulator

Thermal transport properties of graphene-based ferromagnetic/singlet superconductor/ferromagnetic junctions

Sea of Majorana fermions from pseudo-scalar superconducting order in three dimensional Dirac materials

Signatures of d-wave symmetry on thermal Dirac fermions in graphene-based F|I|d junctions

Spin-polarized conductance in graphene-based FSF junctions

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