HgTe as a Topological Insulator

07.10.2013

Laurens W. Molenkamp, Physics Institute EP 3, Würzburg University, Würzburg, Germany

HgTe is a zincblende-type semiconductor with an inverted band structure. While the bulk material is a semimetal, lowering the crystalline symmetry opens up a gap, turning the compound into a topological insulator.
The most straightforward way to do so is by growing a quantum well with (Hg,Cd)Te barriers. Such structures exhibit the quantum spin Hall effect, where a pair of spin polarized helical edge channels develops when the bulk of the material is insulating.
Our transport data [1-3] provide very direct evidence for the existence of this third quantum Hall effect, which now is seen as the prime manifestation of a 2-dimensional topological insulator.
To turn the material into a 3-dimensional topological insulator, we utilize growth induced strain in relatively thick (ca. 100 nm) HgTe epitaxial layers. The high electronic quality of such layers allows a direct observation of the quantum Hall effect of the 2-dimensional topological surface states [4]. Moreover, on contacting these structures with Nb electrodes, a supercurrent is induced in the surface states.

References
[1] M. König, et al., Science, 318, 766 (2007).
[2] A. Roth, et al., Science, 325, 294 (2009).
[3] C. Brüne, et al., Nature Physics, 8, 486 (2012).
[4] C. Brüne, et al., Phys. Rev. Lett., 106, 126803 (2011).

 

Montag, 7. Oktober 2013, 17:30 Uhr
(ab 17:00 Uhr Kaffee)

Technische Universität Wien - Freihaus,
Hörsaal 5 (Turm A, 2. Stock, grüner Bereich)
Wiedner Hauptstr. 8-10, 1040 Wien 

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