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PUBMED FOR HANDHELDS

Journal Abstract Search


222 related items for PubMed ID: 28949552

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  • 6. Magnetoinfrared Spectroscopy of Landau Levels and Zeeman Splitting of Three-Dimensional Massless Dirac Fermions in ZrTe(5).
    Chen RY, Chen ZG, Song XY, Schneeloch JA, Gu GD, Wang F, Wang NL.
    Phys Rev Lett; 2015 Oct 23; 115(17):176404. PubMed ID: 26551130
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  • 7. A Novel Quasi-Planar Two-dimensional Carbon Sulfide with Negative Poisson's Ratio and Dirac Fermions.
    Nulakani NVR, Ali MA, Subramanian V.
    Chemphyschem; 2023 Nov 02; 24(21):e202300266. PubMed ID: 37609863
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  • 8. Two-dimensional type-II Dirac fermions in layered oxides.
    Horio M, Matt CE, Kramer K, Sutter D, Cook AM, Sassa Y, Hauser K, Månsson M, Plumb NC, Shi M, Lipscombe OJ, Hayden SM, Neupert T, Chang J.
    Nat Commun; 2018 Aug 14; 9(1):3252. PubMed ID: 30108225
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  • 12. Designer Dirac fermions and topological phases in molecular graphene.
    Gomes KK, Mar W, Ko W, Guinea F, Manoharan HC.
    Nature; 2012 Mar 14; 483(7389):306-10. PubMed ID: 22422264
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  • 14. Dirac fermions at the H point of graphite: magnetotransmission studies.
    Orlita M, Faugeras C, Martinez G, Maude DK, Sadowski ML, Potemski M.
    Phys Rev Lett; 2008 Apr 04; 100(13):136403. PubMed ID: 18517976
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  • 15. Creating, moving and merging Dirac points with a Fermi gas in a tunable honeycomb lattice.
    Tarruell L, Greif D, Uehlinger T, Jotzu G, Esslinger T.
    Nature; 2012 Mar 14; 483(7389):302-5. PubMed ID: 22422263
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  • 16. The half-filled Landau level: The case for Dirac composite fermions.
    Geraedts SD, Zaletel MP, Mong RS, Metlitski MA, Vishwanath A, Motrunich OI.
    Science; 2016 Apr 08; 352(6282):197-201. PubMed ID: 27124453
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  • 19. Pressure engineering of the Dirac fermions in quasi-one-dimensional Tl2Mo6Se6.
    Song Z, Li B, Xu C, Wu S, Qian B, Chen T, Biswas PK, Xu X, Sun J.
    J Phys Condens Matter; 2020 May 13; 32(21):215402. PubMed ID: 32032009
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