Maia Vergniory Explained

Maia Vergniory
Birth Name:Maia Garcia Vergniory
Workplaces:Donostia International Physics Center
Ikerbasque
Max Planck Institute for Chemical Physics of Solids
Thesis Title:Gorputz anitzen eta banda-egituraren efektuak egoera elektroniko kitzikatuen zein oio higikorren eta gainazal solidoen arteko elkerrekintzaren gainean
Thesis Url:https://worldcat.org/en/title/932565483
Thesis Year:2008
Alma Mater:University of the Basque Country
Joseph Fourier University
Doctoral Advisor:Jose Maria Pitarke de la Torre and Pedro Miguel Echenique
Fields:Electronic structure
Magnetism
Spin
Metals
Topological insulators

Maia Garcia Vergniory is a Spanish computational physicist who is a group leader at the Max Planck Institute for Chemical Physics of Solids. Her work in topological quantum chemistry investigates the phases of topological materials. She was elected Fellow of the American Physical Society in 2022.

Early life and education

Vergniory was born in Getxo.[1] She was a doctoral researcher at the University of the Basque Country. Her research considered many-body effects on the interactions between excited electronic states and the mobile ions on surfaces.[2] She started working on topological materials in 2012.[3]

Research and career

Vergniory worked as a research fellow at the Ikerbasque and the Donostia International Physics Center.[4] She studied novel materials and computational strategies to realise new condensed matter systems.[5]

Verginory became interested in the design of new topological materials with optimised functional properties.[6] [7] Topological materials are insulators in the bulk but conductive on their surfaces.[8] The conducting channels that facilitate current flow are robust and independent of size.

Vergniory studied the Inorganic Crystal Structure Database to identify topologically nontrivial materials.[9] She designed a computational effort to simulate real materials and determine whether or not they showed topological properties.[10] This included complex theoretical analysis that could classify topological phases, and information from materials scientists on whether materials were suitable or not.[11] Vergniory uses her supercomputers to perform her calculations ab initio. In an interview with Physics World, Verginory said that she had been surprised by how many materials she identified with topological properties. As an output of this work, the high-order topological insulator Bi4Br4 was synthesised and studied experimentally. She showed that if it was possible to identify the symmetry of the crystalline symmetry of a material, she could easily anticipate the behaviour of the charge. She has since started investigating organic materials. She believes that topological crystals with a chiral structure will display several exotic physical phenomena.[12]

Awards and honours

Selected publications

Notes and References

  1. Web site: 2017-07-20 . "Nuestro logro ha sido desarrollar la teoría que ganó el Premio Nobel" . 2022-11-09 . El Diario Vasco . es.
  2. Web site: Gorputz anitzen eta banda-egituraren efektuak egoera elektroniko kitzikatuen zein oio higikorren eta gainazal solidoen arteko elkerrekintzaren gainean WorldCat.org . 2022-11-09 . www.worldcat.org . en.
  3. Web site: 2018-12-07 . Maia G. Vergniory: "Se han encontrado 200 materiales topológicos, pero aún no tenemos el candidato ideal" . 2022-11-09 . Quo . es.
  4. Web site: Department of Applied Physics Research Seminar: Maia G. Vergniory Aalto University . 2022-11-09 . www.aalto.fi . 29 March 2021 . en.
  5. Web site: 2020-04-22 . Research . 2022-11-09 . This is the website of Maia G. Vergniory . en.
  6. Web site: Goikoetxea . Jakes . Ezezaguna bai, exotikoa ez . 2022-11-09 . Berria . 10 June 2022 . eu.
  7. Web site: "Para el ordenador cuántico queda como mínimo una década" . 2022-11-09 . Agencia SINC . es.
  8. Web site: Donostia International Physics Center –2018/09/05 Maia Garcia Vergniory in the cover of Nature Physics . 2022-11-09 . dipc.ehu.eus.
  9. Vergniory . Maia G. . Wieder . Benjamin J. . Elcoro . Luis . Parkin . Stuart S. P. . Felser . Claudia . Bernevig . B. Andrei . Regnault . Nicolas . 2022-05-20 . All topological bands of all nonmagnetic stoichiometric materials . Science . en . 376 . 6595 . eabg9094 . 10.1126/science.abg9094 . 35587971 . 2105.09954 . 235125620 . 0036-8075.
  10. Web site: Topological Materials Database . 2022-11-09 . topologicalquantumchemistry.com.
  11. Web site: 2022-11-01 . A periodic table for topological materials . 2022-11-09 . Physics World . en-GB.
  12. Schröter . Niels B. M. . Pei . Ding . Vergniory . Maia G. . Sun . Yan . Manna . Kaustuv . de Juan . Fernando . Krieger . Jonas A. . Süss . Vicky . Schmidt . Marcus . Dudin . Pavel . Bradlyn . Barry . Kim . Timur K. . Schmitt . Thorsten . Cacho . Cephise . Felser . Claudia . August 2019 . Chiral topological semimetal with multifold band crossings and long Fermi arcs . Nature Physics . en . 15 . 8 . 759–765 . 10.1038/s41567-019-0511-y . 1812.03310 . 2019NatPh..15..759S . 118941556 . 1745-2481.
  13. Web site: Donostia International Physics Center –2017/11/22 - Maia García-Vergniory, researcher from DIPC and UPV/EHU, winner of the Prize L'Oréal-UNESCO For Women in Science . 2022-11-09 . dipc.ehu.es.
  14. Web site: Taibo . Por Marieta . 2017-11-23 . Estas científicas pueden cambiar tu vida . 2022-11-09 . Cosmopolitan . es-ES.
  15. Web site: APS fellowship awarded to Maia G. Vergniory . 2022-11-09 . EurekAlert! . en.

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