Albert Fert Explained

Albert Fert
Birth Date:7 March 1937
Birth Place:Carcassonne, Aude, France
Field:Physics
Work Institutions:Université Paris-Saclay, Unité Mixte de Physique CNRS/Thales, Michigan State University[1]
Alma Mater:École normale supérieure (Paris)
University of Paris
Doctoral Advisor:Ian Campbell
Known For:Giant magnetoresistive effect, spintronics, skyrmions
Prizes:CNRS Gold medal (2003)
Wolf Prize in Physics (2006)
Japan Prize (2007)
Nobel Prize in Physics (2007)

Albert Fert (in French albɛʁ fɛʁ/; born 7 March 1938) is a French physicist and one of the discoverers of giant magnetoresistance which brought about a breakthrough in gigabyte hard disks. Currently, he is an emeritus professor at Paris-Saclay University in Orsay, scientific director of a joint laboratory (Unité mixte de recherche) between the Centre national de la recherche scientifique (National Scientific Research Centre) and Thales Group, and adjunct professor at Michigan State University. He was awarded the 2007 Nobel Prize in Physics together with Peter Grünberg.[2]

Biography

In 1962 Albert Fert graduated from the École Normale Supérieure in Paris,[3] where he attended courses by the physicists Alfred Kastler and Jacques Friedel. (As an undergraduate he had strong interests in photography and cinema, and was a great admirer of the work of Ingmar Bergman.[4])

After the École Normale Supérieure, Fert attended the University of Grenoble and in 1963 received his Ph.D. (doctorat de troisième cycle) from the University of Paris with a thesis prepared in the fundamental electronic Orsay Faculty of Sciences and in the physical spectrometry laboratory of the University of Grenoble Faculty of Sciences.

On his return from military service in 1965, Fert became assistant professor at the Orsay Faculty of Sciences of the University of Paris XI (Université Paris-Sud).[5] Under the direction of Ian Campbell at the Laboratory of Solid Physics he prepared for a doctorate Sc.D. (doctorat des sciences) in Physical Sciences on the electrical transport properties of nickel and iron, which he completed in 1970. He was named professor in 1976.

Fert worked as research director for the university's condensed-matter physics laboratory (1970–1995) prior to moving to Unité Mixte de Physique, a laboratory jointly run by the Université Paris-Sud and the technology company Thales.

In 1988, Albert Fert at Orsay in France, and Peter Gruenberg at Jülich in Germany, simultaneously and independently discovered giant magnetoresistance (GMR) in magnetic multilayers.[6] [7] This discovery is considered to mark the birth of spintronics,[8] [9] a new subfield of electronics that exploits not only the electric charge of the electrons but also their magnetism (associated with their intrinsic angular momentum, or spin). Spintronics has already contributed important applications; the introduction of GMR read heads in hard disks has led to a considerable increase in the density of information storage. Other spintronic properties are exploited in magnetic random access memory (MRAM),[10] which may soon impact computer and phone technology. In 2007, Fert and Prof. Grünberg jointly received the Japan Award (300.000 Euro) for their discovery of GMR.

In October 2006, Professor Fert received an honorary doctorate from the Department of Physics of the University of Kaiserslautern.

Fert has made many contributions to the development of spintronics. Following his 2007 Nobel Prize, he began to explore possible spintronics applications of topological properties at surfaces and interfaces.[11] His most recent works are on the topologically protected magnetic solitons called skyrmions[12] and on the conversion between charge current and spin current by topological insulators.[13]

Honors and awards

External links

Notes and References

  1. 2007-10-09. MICHIGAN STATE UNIVERSITY ADJUNCT PHYSICS PROFESSOR WINS NOBEL PRIZE. MSU Today.
  2. Web site: The Nobel Prize in Physics 2007.
  3. Web site: Prof. Albert Fert GSE Mainz. 2021-01-19. www.mainz.uni-mainz.de.
  4. Web site: Albert Fert, un Nobel amoureux de Bergman. 2021-01-19. LEFIGARO. 31 December 2007 . fr.
  5. Web site: The Nobel Prize in Physics 2007 – Albert Fert – Facts. 2021-01-19. NobelPrize.org. en-US.
  6. Baibich. M. N.. Broto. J. M.. Fert. A.. Van Dau. F. Nguyen. Petroff. F.. Etienne. P.. Creuzet. G.. Friederich. A.. Chazelas. J.. 1988-11-21. Giant Magnetoresistance of (001)Fe/(001)Cr Magnetic Superlattices. Physical Review Letters. 61. 21. 2472–2475. 10.1103/PhysRevLett.61.2472. 10039127. 1988PhRvL..61.2472B. free.
  7. Binasch. G.. Grünberg. P.. Saurenbach. F.. Zinn. W.. 1989-03-01. Enhanced magnetoresistance in layered magnetic structures with antiferromagnetic interlayer exchange. Physical Review B. 39. 7. 4828–4830. 10.1103/PhysRevB.39.4828. 9948867. 1989PhRvB..39.4828B. free.
  8. Book: Handbook of spin transport and magnetism. 2012. CRC Press. Tsymbal, E. Y. (Evgeny Y.). Zutic, Igor. 9781439803776. Boca Raton, Florida. 756724063.
  9. Chappert. Claude. Fert. Albert. Dau. Frédéric Nguyen Van. The emergence of spin electronics in data storage. Nature Materials. En. 6. 11. 813–823. 10.1038/nmat2024. 17972936. 1476-4660. 2007NatMa...6..813C. 2007. 21075877 .
  10. Åkerman. Johan. 2005-04-22. Toward a Universal Memory. Science. en. 308. 5721. 508–510. 10.1126/science.1110549. 0036-8075. 15845842. 60577959.
  11. Soumyanarayanan. Anjan. Reyren. Nicolas. Fert. Albert. Panagopoulos. Christos. 2016-11-23. Emergent phenomena induced by spin–orbit coupling at surfaces and interfaces. Nature. En. 539. 7630. 509–517. 10.1038/nature19820. 27882972. 1476-4687. 1611.09521. 2016arXiv161109521S. 4452338.
  12. Fert. Albert. Reyren. Nicolas. Cros. Vincent. Magnetic skyrmions: advances in physics and potential applications. Nature Reviews Materials. En. 2. 7. 17031. 10.1038/natrevmats.2017.31. 2058-8437. 1712.07236. 2017NatRM...217031F. 2017.
  13. Rojas-Sánchez. J.-C.. Oyarzún. S.. Fu. Y.. Marty. A.. Vergnaud. C.. Gambarelli. S.. Vila. L.. Jamet. M.. Ohtsubo. Y.. 2016-03-01. Spin to Charge Conversion at Room Temperature by Spin Pumping into a New Type of Topological Insulator: $\ensuremath$-Sn Films. Physical Review Letters. 116. 9. 096602. 10.1103/PhysRevLett.116.096602. 26991190. 1509.02973. 2016PhRvL.116i6602R. 91173907 .