24 AprMaterial Science and Engineering Special SeminarControl of “Valley” Properties in 2D TMDs Using a Magnet
Control of “Valley” Properties in 2D TMDs Using a Magnet
  • Prof. Hao Zeng
  • Department of Physics, University at Buffalo
  • Wednesday, April 24, 2019
  • 03:00 PM - 05:00 PM
  • Ibn Sina Building (Bldg. 3), Room 5209
2019-04-24T15:002019-04-24T17:00Asia/RiyadhControl of “Valley” Properties in 2D TMDs Using a MagnetMSE Special SemianrIbn Sina Building (Bldg. 3), Room 5209Mazen E. Mero

ABSTRACT: Exploiting the “valley” degree of freedom to store and manipulate information is an emerging direction of condensed matter physics, and provides a novel paradigm for future electronics. A valley is a local extremum in the electronic band structure. Transition metal dichalcogenides (TMDs), such as MoS2, WS2 and WSe2, are semiconductor analogy of graphite with atomic layers bonded together by Van der Waals interactions. A monolayer TMD with broken inversion symmetry possesses two degenerate valleys that can be selectively excited by circularly polarized light. Breaking the valley degeneracy allows convenient control of valley degree of freedom. This can be done by applying an external magnetic field to Zeeman split the band edge states. We demonstrate that the valley properties can be controlled by magnetism. We show that valley splitting can be enhanced by more than an order of magnitude, utilizing the interfacial exchange field from a ferromagnetic substrate. We further show that both the magnitude and sign of the valley spitting can be tuned by the exchange field, which is otherwise unattainable in an external field. This approach opens up a new avenue for valley control for valleytronics applications.


BIOGRAPHY: Hao Zeng received his B.S. degree from Nanjing University and Ph.D. from University of Nebraska-Lincoln, both in physics. He was a postdoc fellow at IBM Thomas J Watson Research Center between 2001 and 2004. He then joined the Physics Department at the University at Buffalo, the State University of New York as an Assistant Professor. In 2014 he was promoted to full Professor. He is the recipient of an IBM Research Division Award, National Science Foundation CAREER award, UB Exceptional Scholar-Yong Investigator Award and Lixun Young Scientist Award, Institute of Metal Research, Chinese Academy of sciences. He is an editor of the Journal of Magnetism and Magnetic materials and an editorial board member of Chinese Physics B. He has published 100+ papers in Journals including Nature, Nature Nano., PRL, Nano Letters, JACS, Adv. Mater. and Nano Energy. These papers have been cited for 15,000+ times. Hao Zeng’s research area is in condensed matter and materials physics. His present research interests focus on nanoscale magnetism and spintronics, unconventional chalcogenide semiconductors and bio-applications of magnetic nanoparticles.

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  • Mazen E. Mero

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