Man

Alejandro Osvaldo León Vega

Profesor Asistente

Universidad Tecnológica Metropolitana

Santiago, Chile

Líneas de Investigación


My main research areas are: 1.- Nonlinear dynamics of out-of-equilibrium systems. 2.- Magnetization dynamics of nanostructure. 3.- Spintronics, Spincaloritronics.

Educación

  •  Doctor en Ciencias, Mención Física, UNIVERSIDAD DE CHILE. Chile, 2016
  •  Licenciatura en Ciencias, Mención Física, UNIVERSIDAD DE CHILE. Chile, 2012

Experiencia Académica

  •   Postdoc Full Time

    TOHOKU UNIVERSITY

    Sendai, Japón

    2016 - 2018

  •   Postdoc Full Time

    UNIVERSIDAD DE SANTIAGO DE CHILE

    Santiago, Chile

    2018 - 2018

  •   Investigador Independiente Full Time

    PONTIFICIA UNIVERSIDAD CATOLICA DE VALPARAISO

    Facultad de Ciencias

    Vaparaíso, Chile

    2018 - 2020

  •   Assistant Professor Full Time

    UNIVERSIDAD TECNOLOGICA METROPOLITANA

    Facultad de Ciencias Naturales, Matemática y del Medio Ambiente

    Santiago, Chile

    2020 - At present

Experiencia Profesional

  •   Profesor Asistente Full Time

    Universidad Tecnológica Metropolitana

    Santiago, Chile

    2020 - At present

Premios y Distinciones

  •   Premio Tesis de Doctorado Academia Chilen de Ciencias

    ACADEMIA CHILENA DE CIENCIAS

    Chile, 2017

    Award given by the Chilean Academy of Sciences in the area of Natural Sciences to the thesis entitled: "Dissipative Magnetization Textures Induced by Spin-Transfer torques and Alternating Magnetic Fields".


 

Article (15)

Transition from nonradiative to radiative oscillons in parametrically driven systems
Chaotic patterns and localized states in spin valves
Manipulation of the RKKY exchange by voltages
Synchronization of two spin-transfer-driven nano-oscillators coupled via magnetostatic fields
Dissipative magnetic breathers induced by time-modulated voltages
Oscillating decorated interfaces in parametrically driven systems
Voltage Control of Rare-Earth Magnetic Moments at the Magnetic-Insulator-Metal Interface
Alternating superlattice textures in driven nanomagnets
Crystal field effects on spin pumping
Flaming 2 pi kinks in parametrically driven systems
Stationary textures induced by spin-transfer torques=> role of the angular dependence
Alternating spin-polarized current induces parametric resonance in spin valves
Spin-transfer-driven nano-oscillators are equivalent to parametric resonators
Traveling pulse on a periodic background in parametrically driven systems
Dissipative structures induced by spin-transfer torques in nanopillars

ConferencePaper (1)

Parametric Phenomena in Magnetic Nanostripes

Proyecto (1)

Magnetic Textures Induced By A Variable Anisotropy
15
Alejandro León

Profesor Asistente

Departamento de Física

Universidad Tecnológica Metropolitana

Santiago, Chile

5
Marcel Clerc

Full professor

Department of Physics

Universidad de Chile

Santiago, Chile

4
Dora Altbir

Vicerrectora de Investigación e Innovación

Universidad Diego Portales

Santiago, Chile

3
David Laroze

Full Professor

UNIVERSIDAD DE TARAPACA

Arica, Chile

2
Ana Cabanas

Investigador y profesor

Departamento de Fisica

Universidad de Tarapacá

Arica, Chile

1
Rodrigo Arias

Associate Professor

Physics

UNIVERSIDAD DE CHILE

Santiago, Chile

1
Michel Ferre

Investigador PhD/ Postdoctoral

Física

Universidad de Chile

Santiago, Chile

1
Juan Retamal

Full Professor

Physics

UNIVERSIDAD DE SANTIAGO DE CHILE

Santiago de CHile, Chile

1
Alvaro Núñez

profesor asociado

física

DEPARTAMENTO DE FÍSICA, FCFM, UNIVERSIDAD DE CHILEQ

Santiago, Chile

1
Sebastian Allende

Assistant Professor

Physics

UNIVERSIDAD DE SANTIAGO DE CHILE (USACH)

Santiago, Chile