Eva Andrei

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Eva Andrei
Alma materRutgers University
Scientific career
ThesisInvestigation of fourth sound propagation in He II in the presence of superflow (1981)

Eva Yocheved Andrei is an American condensed matter physicist, currently a Distinguished Professor and Board of Governors Professor at Rutgers University.[1] Her research focuses on emergent properties of matter arising from collective behavior of many particles, especially low-dimensional phenomena under low temperatures and high magnetic fields.

Education and training[]

Andrei grew up in Bucharest[2] and then received her bachelor's degree from the Tel Aviv University and her Ph.D. from Rutgers University. She then worked as a postdoctoral fellow at Bell Labs.[3]

Career[]

Andrei began her independent career in 1987 as an assistant professor at Rutgers.[4] One of her first major contributions was establishing the existence of a Wigner solid in a 2D electron plasma.[5][6] More recently she has made major contributions to the study of graphene, including detection of ballistic transport of charge carriers[7] and the observation of Van Hove singularity in twisted bilayer graphene.[8] Andrei's discovery of the fractional quantum Hall effect in graphene[9][10] was one of Science magazines top ten discoveries for the year 2009.[11] Through studying moiré patterns when sheets of graphene are twisted, Andrei observed the alignment of electrons which could facilitate the use of graphene in supercomputers.[12][13] Andrei's research has also presented the possibility that graphene could be used to cool supercomputers[14][15] and has revealed new ways of making flat bands within twisted graphene[16] which may be used to make superlattice structures.[17]

Selected publications[]

Awards and honors[]

References[]

  1. ^ "Andrei, Eva Y." Rutgers University.
  2. ^ "Oral-History:Eva Andrei - Engineering and Technology History Wiki". 2020-01-03. Archived from the original on 2020-01-03. Retrieved 2021-11-02.
  3. ^ "The Andrei Research Group". Rutgers University.
  4. ^ "The Andrei Research Group". Rutgers University.
  5. ^ "Eva Y. Andrei American Academy of Arts and Sciences". American Academy of Arts and Sciences.
  6. ^ Andrei, EY; Deville, G; Glattli, DC; Williams, FIB; Paris, E; Etienne, B (1988). "Observation of a Magnetically Induced Wigner Solid". Physical Review Letters. 60 (26): 2765–2768. Bibcode:1988PhRvL..60.2765A. doi:10.1103/PhysRevLett.60.2765. PMID 10038446.
  7. ^ Du, X; Skachko, I; Barker, A; Andrei, EY (2008). "Approaching ballistic transport in suspended graphene". Nature Biotechnology. 3 (8): 491–495. arXiv:0802.2933. Bibcode:2008NatNa...3..491D. doi:10.1038/nnano.2008.199. PMID 18685637.
  8. ^ Li, Guohong; Luican, A.; Lopes dos Santos, J. M. B.; Castro Neto, A. H.; Reina, A.; Kong, J.; Andrei, E. Y. (2010). "Observation of Van Hove singularities in twisted graphene layers". Nature Physics. 6 (2): 109–113. arXiv:0912.2102. Bibcode:2010NatPh...6..109L. doi:10.1038/nphys1463. ISSN 1745-2481. S2CID 8626222.
  9. ^ "Eva Y. Andrei American Academy of Arts and Sciences". American Academy of Arts and Sciences.
  10. ^ Du, X; Skachko, I; Duerr, F; Luican, A; Andrei, EY (2009). "Fractional quantum Hall effect and insulating phase of Dirac electrons in graphene". Nature. 462 (7270): 192–195. arXiv:0910.2532. Bibcode:2009Natur.462..192D. doi:10.1038/nature08522. PMID 19829294. S2CID 2927627.
  11. ^ The News Staff (2009-12-18). "The Runners-Up". Science. 326 (5960): 1600–1607. Bibcode:2009Sci...326.1600.. doi:10.1126/science.326.5960.1600. PMID 20019253.
  12. ^ Jiang, Yuhang; Lai, Xinyuan; Watanabe, Kenji; Taniguchi, Takashi; Haule, Kristjan; Mao, Jinhai; Andrei, Eva Y. (2019). "Charge order and broken rotational symmetry in magic-angle twisted bilayer graphene". Nature. 573 (7772): 91–95. arXiv:1904.10153. Bibcode:2019Natur.573...91J. doi:10.1038/s41586-019-1460-4. ISSN 0028-0836. PMID 31365921. S2CID 198147548.
  13. ^ Hays, Brooks (August 1, 2019). "Graphene discovery could make room-temperature superconductors possible". UPI. Retrieved 2021-11-02.{{cite web}}: CS1 maint: url-status (link)
  14. ^ Duan, Junxi; Wang, Xiaoming; Lai, Xinyuan; Li, Guohong; Watanabe, Kenji; Taniguchi, Takashi; Zebarjadi, Mona; Andrei, Eva Y. (2016-12-13). "High thermoelectricpower factor in graphene/hBN devices". Proceedings of the National Academy of Sciences. 113 (50): 14272–14276. arXiv:1607.00583. Bibcode:2016PNAS..11314272D. doi:10.1073/pnas.1615913113. ISSN 0027-8424. PMC 5167211. PMID 27911824.
  15. ^ "Graphene tested as tiny 'coolers' for computer chips". Futurity. 2017-03-28. Retrieved 2021-11-02.
  16. ^ Mao, Jinhai; Milovanović, Slaviša P.; Anđelković, Miša; Lai, Xinyuan; Cao, Yang; Watanabe, Kenji; Taniguchi, Takashi; Covaci, Lucian; Peeters, Francois M.; Geim, Andre K.; Jiang, Yuhang; Andrei, Eva Y. (2020-08-13). "Evidence of flat bands and correlated states in buckled graphene superlattices". Nature. 584 (7820): 215–220. arXiv:2006.01660. Bibcode:2020Natur.584..215M. doi:10.1038/s41586-020-2567-3. ISSN 0028-0836. PMID 32788735. S2CID 219179760.
  17. ^ Dumé, Isabelle (2020-09-07). "Flat bands appear in buckled graphene superlattices". Physics World. Retrieved 2021-11-02.{{cite web}}: CS1 maint: url-status (link)
  18. ^ "2013 NAS Members and Foreign Associates Elected". National Academy of Sciences. Retrieved 5 March 2020.
  19. ^ "Eva Y. Andrei". www.nasonline.org. Retrieved 2021-11-02.
  20. ^ "AAAS Members Elected as Fellows". American Association for the Advancement of Science.
  21. ^ "Eva Y. Andrei American Academy of Arts and Sciences". American Academy of Arts and Sciences.
  22. ^ "APS Physics DCMP APS Fellowship". American Physical Society. Retrieved 5 March 2020.

External links[]

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