PhD student, Magnetic Objects on the NanoScale (DMONS)
Phone: +33(0)3 88 10 70 79Office: 1018

PhD Project

My thesis project aims to use spin waves to probe the spin-polarized electronic transport in thin films of single crystalline FeV alloys. The spin wave Doppler shift gives direct access to the spin polarization of the electric current in the material. By measuring at different temperatures and different concentrations of V, we intend to separate the different contributions (phonons, magnons, impurities) to the transport of electrons in the so-called two-current model.

Visualization of two-current model for FeV

Academic background

  • 2019. Master in Physics. University of Strasbourg. [Thesis link]
  • 2017. Bsc. Physics. Universidad San Francisco de Quito. [Thesis Link]

Current work

  • Spin wave Doppler shift measurements.
  • Temperature dependent spin wave propagation.
  • Ferromagnetic resonance characterization.
  • Spin wave spectroscopy.
  • Nanofabrication.
  • Microwave measurements.

Spin wave Doppler shift device


L. Temdie, V. Castel, T. Reimann, M. Lindner, C. Dubs, G. Pradhan, J. Solano, R. Bernard, H. Majjad, Y. Henry, M. Bailleul, V. Vlaminck, Chiral Excitation of Exchange Spin Waves Using Gold Nanowire Grating, Magnetochemistry 9 (2023) 199.
L. Temdie, V. Castel, C. Dubs, G. Pradhan, J. Solano, H. Majjad, R. Bernard, Y. Henry, M. Bailleul, V. Vlaminck, High wave vector non-reciprocal spin wave beams, AIP Advances 13 (2023) 025207.
J. Solano, O. Gladii, P. Kuntz, Y. Henry, D. Halley, M. Bailleul, Spin-wave study of magnetic perpendicular surface anisotropy in single crystalline MgO/Fe/MgO films, Physical Review Materials 6 (2022) 124409.
M. Pacé, O. Kovalenko, J. Solano, M. Hehn, M. Bailleul, M. Vomir, Increasing terahertz spintronic emission with planar antennas, APL Materials 12 (2024) 051113.

You can check my previous work done in my master and bachelor with the links on this page.