Your search keyword '"Khorshidian, S."' showing total 7 results

1. Coexistence of superconductivity and spin-splitting fields in superconductor/ferromagnetic insulator bilayers of arbitrary thickness

Author

Hijano, Alberto, Ilić, Stefan, Rouco, Mikel, González-Orellana, Carmen, Ilyn, Maxim, Rogero, Celia, Virtanen, P., Heikkilä, T. T., Khorshidian, S., Spies, M., Ligato, N., Giazotto, F., Strambini, E., and Bergeret, F. Sebastián

Subjects

Condensed Matter - Superconductivity

Abstract

Ferromagnetic insulators can induce a strong exchange field in an adjacent superconductor via the magnetic proximity effect. This manifests as spin-splitting of the BCS density of states of the superconductor, an important ingredient for numerous superconducting spintronics applications and the realization of Majorana fermions. A crucial parameter that determines the magnitude of the induced spin-splitting in FI/S bilayers is the thickness of the S layer $d$: In very thin samples, the superconductivity is suppressed by the strong magnetism. By contrast, in very thick samples, the spin splitting is absent at distances away from the interface. In this work, we calculate the density of states and critical field of FI/S bilayers of arbitrary thickness. From here, we determine the range of parameters of interest for applications, where the exchange field and superconductivity coexist. We compare our theory with the tunneling spectroscopy measurements in several EuS/Al/AlO$_x$/Al samples. If the Al film in contact with the EuS is thinner than a certain critical value, we do not observe superconductivity, whereas, in thicker samples, we find evidence of a first-order phase transition induced by an external field. The complete transition is preceded by a regime in which normal and superconducting regions coexist. We attribute this mixed phase to inhomogeneities of the Al film thickness and the presence of superparamagnetic grains at the EuS/Al interface with different switching fields. Our results demonstrate on the one hand, the important role of the S layer thickness, which is particularly relevant for the fabrication of high-quality samples suitable for applications. On the other hand, the agreement between theory and experiment demonstrates the accuracy of our theory, which, originally developed for homogeneous situations, is generalized to highly inhomogeneous systems., Comment: 14 pages, 6 figures

Published

2020

2. Effects of minimal length on Berry phase and spin-orbit interactions

Author

Aghababaei, S., Moradpour, H., Rezaei, G., and Khorshidian, S.

Subjects

High Energy Physics - Theory, Quantum Physics

Abstract

The effect of Generalized Uncertainty Principle (GUP) on Berry phase is studied using the perturbation approach and up to the first order of approximation. Thereinafter, the obtained results are extended to a quantum ring in which two types of spin-orbit interactions, including Rashba and Dresselhaus interactions, can be felt by electrons. Comparing the final results with the accuracy of Berry phase detectors, one can find an upper bound on GUP parameter as $\beta_{0}<10^{46}$ and $\beta_{0}<10^{51}$ from Rashba and Dresselhaus interactions, respectively, in agreement with previous results.

Published

2020

3. Spin-orbit interaction effects on the electronic structure of spherical quantum dot with different confinement potentials

Author

Vaseghi, B., Mousavi, M., Khorshidian, S., and Vafapour, Z.

Published

2017

4. Coexistence of Superconductivity and Spin-Splitting Fields in Superconductor/Ferromagnetic Insulator Bilayers of Arbitrary Thickness

Author

Física, Polímeros y Materiales Avanzados: Física, Química y Tecnología, Fisika, Polimero eta Material Aurreratuak: Fisika, Kimika eta Teknologia, Hijano Mendizabal, Alberto, Ilic, Stefan, Rouco Martín, Mikel, González Orellana, Carmen, Ilyn, Maxim, Rogero Blanco, Celia, Virtanen, P., Heikkila, T. T., Khorshidian, S., Spies, M., Ligato, N., Giazotto, F., Strambini, E., Bergeret Sbarbaro, F. Sebastian, Física, Polímeros y Materiales Avanzados: Física, Química y Tecnología, Fisika, Polimero eta Material Aurreratuak: Fisika, Kimika eta Teknologia, Hijano Mendizabal, Alberto, Ilic, Stefan, Rouco Martín, Mikel, González Orellana, Carmen, Ilyn, Maxim, Rogero Blanco, Celia, Virtanen, P., Heikkila, T. T., Khorshidian, S., Spies, M., Ligato, N., Giazotto, F., Strambini, E., and Bergeret Sbarbaro, F. Sebastian

Abstract

Ferromagnetic insulators (FI) can induce a strong exchange field in an adjacent superconductor (S) via the magnetic proximity effect. This manifests as spin splitting of the BCS density of states of the superconductor, an important ingredient for numerous superconducting spintronics applications and the realization of Majorana fermions. A crucial parameter that determines the magnitude of the induced spin splitting in FI/S bilayers is the thickness of the S layer d: In very thin samples, the superconductivity is suppressed by the strong magnetism. By contrast, in very thick samples, the spin splitting is absent at distances away from the interface. In this work, we calculate the density of states and critical exchange field of FI/S bilayers of arbitrary thickness. From here, we determine the range of parameters of interest for applications, where the exchange field and superconductivity coexist. We show that for d > 3.0 xi(s), the paramagnetic phase transition is always of the second order, in contrast to the first-order transition in thinner samples at low temperatures. Here xi(s), is the superconducting coherence length. Finally, we compare our theory with the tunneling spectroscopy measurements in several EuS/Al/AlOx/Al samples. If the Al film in contact with the EuS is thinner than a certain critical value, we do not observe superconductivity, whereas, in thicker samples, we find evidence of a first-order phase transition induced by an external field. The complete transition is preceded by a regime in which normal and superconducting regions coexist. We attribute this mixed phase to inhomogeneities of the Al film thickness and the presence of superparamagnetic grains at the EuS /Al interface with different switching fields. The steplike evolution of the tunnel-barrier magnetoresistance supports this assumption. Our results demonstrate on the one hand, the important role of the S layer thickness, which is particularly relevant for the fabrication of high-quality

Published

2021

5. Coexistence of superconductivity and spin-splitting fields in superconductor/ferromagnetic insulator bilayers of arbitrary thickness

Author

Hijano, Alberto, primary, Ilić, Stefan, additional, Rouco, Mikel, additional, González-Orellana, Carmen, additional, Ilyn, Maxim, additional, Rogero, Celia, additional, Virtanen, P., additional, Heikkilä, T. T., additional, Khorshidian, S., additional, Spies, M., additional, Ligato, N., additional, Giazotto, F., additional, Strambini, E., additional, and Bergeret, F. Sebastián, additional

Published

2021

6. Minimal length, Berry phase and spin-orbit interactions

Author

Aghababaei, S, primary, Moradpour, H, additional, Rezaei, G, additional, and Khorshidian, S, additional

Published

2021

7. NONLINEAR EFFECTS ON THE ENTANGLEMENT BETWEEN QUANTIZED ELECTROMAGNETIC FIELDS AND 3-LEVEL ATOMS

Author

VASEGHI, B., primary, REZAEI, G., additional, and KHORSHIDIAN, S., additional

Published

2011