Manuel Bibes Explained

Honorific Prefix:Dr.
Manuel Bibes
Birth Date:15 July 1976
Birth Place:Sainte-Foy-la-Grande
Education:Ph.D., Autonomous University of Barcelona, 2001
Alma Mater:Institut national des sciences appliquées de Toulouse
Occupation:Physicist
Employer:French National Centre for Scientific Research (CNRS)
Website:https://oxitronics.cnrs.fr/manuel-bibes/

Manuel Bibes, born on July 15, 1976, in Sainte-Foy-la-Grande, is a French physicist specializing in functional oxides,[1] multiferroic materials, and spintronics. He is currently a Research Director at the National Center for Scientific Research (CNRS).

Biography

After earning an engineering degree from the Institut National des Sciences Appliquées de Toulouse in 1998, Bibes completed his Ph.D. under the supervision of Josep Fontcuberta at the ICMAB, at the Autonomous University of Barcelona in 2001, focusing on thin manganite films and their application in spintronics.[2] His PhD was follwed by a postdoctoral fellowship at the Joint Physics Unit CNRS/Thales (currently known as Laboratory Albert Fert) under the guidance of Prof. Albert Fert. Bibes joined the CNRS in 2003 at the Institute of Fundamental Electronics, now known as the Center for Nanoscience and Nanotechnology (C2N). Afterwards he completed research stays at MIT and the University of Cambridge as a visiting researcher and joined the Laboratory Albert Fert at 2007.[3] All his research publications are listed in Google Scholar.[4]

Throughout his career, Bibes has been a leader in research of multiferroic materials[5] (which simultaneously exhibits magnetic and ferroelectric properties) and their utilsation in electrical control of magnetism. In 2009, his team discovered the phenomenon of giant tunnel electroresistance in ferroelectric tunnel junctions[6] (results published in Nature[7]) demonstrating their potential as artificial synapses.[8] In 2016, in collaboration with the Spintec[9] laboratory, he demonstrated that non-magnetic oxide interfaces can be used as ultrasensitive spin detectors. This findings led to a collaboration with Intel[10] for the development of a new type of energy efficient transistor[11] (MESO) aimed at replacing the current transistors based on CMOS technology. Since 2018, Manuel Bibes has been recognized as a Highly Cited Researcher by Clarivate Analytics.[12] In June 2022, along with Agnès Barthélémy, Ramamoorthy Ramesh and Nicola Spaldin, he received the Europhysics Prize from the European Physical Society for their significant contributions to the fundamental and applied physics of multiferroic and magnetoelectric materials.[13]

Awards and honors

Selected lectures and talks

References

  1. Web site: June 24, 2020 . Manuel Bibes : L'oxytronique à la conquête de la microélectronique . July 2, 2024 . Université Paris-Saclay . fr.
  2. Elaboration et étude de couches minces de manganites à valence mixte . Toulouse, INSA . January 1, 2001 . These de doctorat . Manuel . Bibes.
  3. Web site: Laboratoire Albert Fert - CNRS, Thales, Université Paris-Saclay . July 2, 2024 . Laboratoire Albert Fert . fr-FR.
  4. Web site: Manuel Bibes . July 2, 2024 . scholar.google.fr.
  5. News: June 24, 2013 . Ferrite de bismuth, le solide surdoué . July 2, 2024 . Le Monde.fr . fr.
  6. News: June 13, 2009 . Electronique : De futures mémoires ferroélectriques . Le Monde.
  7. Garcia . V. . Fusil . S. . Bouzehouane . K. . Enouz-Vedrenne . S. . Mathur . N. D. . Barthélémy . A. . Bibes . M. . July 2009 . Giant tunnel electroresistance for non-destructive readout of ferroelectric states . Nature . en . 460 . 7251 . 81–84 . 10.1038/nature08128 . 19483675 . 2009Natur.460...81G . 1476-4687.
  8. News: April 4, 2017 . Une synapse artificielle apprend seule . July 2, 2024 . Le Monde.fr . fr.
  9. https://www.spintec.fr/
  10. Web site: Partenariat industriel avec Intel. https://web.archive.org/web/20190227060558/http://www.cnrs-thales.fr/spip.php?article403#federation=archive.wikiwix.com&tab=url. February 27, 2019. July 2, 2024. archive.wikiwix.com. bot: unknown.
  11. Manipatruni . Sasikanth . Nikonov . Dmitri E. . Lin . Chia-Ching . Gosavi . Tanay A. . Liu . Huichu . Prasad . Bhagwati . Huang . Yen-Lin . Bonturim . Everton . Ramesh . Ramamoorthy . Young . Ian A. . Jan 2019 . Scalable energy-efficient magnetoelectric spin–orbit logic . Nature . en . 565 . 7737 . 35–42 . 10.1038/s41586-018-0770-2 . 30510160 . 1476-4687.
  12. Web site: Past lists . July 2, 2024 . Clarivate . en.
  13. Web site: The European Physics Society (EPS) 2022 EPS Europhysics Prize for Outstanding Achievement in Condensed Matter Physics .
  14. Web site: EPS European Physical Society more than ideas .
  15. Web site: EU invests €540 million to boost cutting-edge research . July 2, 2024 . ERC . en.
  16. Web site: Search for selection decisions . https://archive.wikiwix.com/cache/index2.php?rev_t=19981130000000&url=https%3A%2F%2Fwww.humboldt-foundation.de%2Fpls%2Fweb%2Fpub_auswahlergebnisse.main%3Fp_lang%3Den%26p_bereich%3DPUBL-BES. 1998-11-29. July 2, 2024 . archive.wikiwix.com.
  17. Web site: Academia of Sciences .
  18. Web site: Honors and Award Winners . July 2, 2024 . www.aps.org . en.
  19. Web site: Emerging electronic states and devices based on Mott insulator interfaces MINT Project Fact Sheet FP7 . July 2, 2024 . CORDIS European Commission . fr.
  20. Web site: EU-40 Materials prize EMRS . July 2, 2024 . www.european-mrs.com.
  21. Web site: Collège de France - Enseigner la recherche en train de se faire . July 2, 2024 . www.college-de-france.fr.

External links