Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2011-05-07
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
The manuscript has been significantly revised with new data sets
Scientific paper
The newly-discovered three-dimensional strong topological insulators (STIs) exhibit topologically-protected Dirac surface states. While the STI surface state has been studied spectroscopically by e.g. photoemission and scanned probes, transport experiments have failed to demonstrate the most fundamental signature of the STI: ambipolar metallic electronic transport in the topological surface of an insulating bulk. Here we show that the surfaces of thin (<10 nm), low-doped Bi2Se3 (\approx10^17/cm3) crystals are strongly electrostatically coupled, and a gate electrode can completely remove bulk charge carriers and bring both surfaces through the Dirac point simultaneously. We observe clear surface band conduction with linear Hall resistivity and well-defined ambipolar field effect, as well as a charge-inhomogeneous minimum conductivity region. A theory of charge disorder in a Dirac band explains well both the magnitude and the variation with disorder strength of the minimum conductivity (2 to 5 e^2/h per surface) and the residual (puddle) carrier density (0.4 x 10^12 cm^-2 to 4 x 10^12 cm^-2). From the measured carrier mobilities 320 cm^2/Vs to 1,500 cm^2/Vs, the charged impurity densities 0.5 x 10^13 cm^-2 to 2.3 x 10^13 cm^-2 are inferred. They are of a similar magnitude to the measured doping levels at zero gate voltage (1 x 10^13 cm^-2 to 3 x 10^13 cm^-2), identifying dopants as the charged impurities.
Adam Shaffique
Butch Nicholas P.
Cho Sungjae
Fuhrer Michael. S.
Kim Dohun
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