Science highlighted Jian Wang and Qi-Kun Xue’s research in Editors' Choice:
Direct evidence of the thinnest high temperature superconductors
Time:2014-01-20ClickTimes:
One unit-cell (1-UC, 0.55 nm) FeSe films grown on SrTiO3 (STO) substrate by
molecular beam epitaxy were reported to show a possibility of high TC
superconductivity by detecting the superconducting-like gap utilizing in situ
scanning tunneling microscopy/spectroscopy and angle resolved photoemission
spectroscopy(Chin. Phys. Lett. 29, 037402 (2012); Nat. Commun. 3, 931 (2012);
Nat. Mater. 12, 605 (2013); Nat. Mater. 12, 634 (2013)). However, direct
evidence of the superconductivity in 1-UC FeSe films, such as zero resistance
and Meissner effect, has not been reported.
After almost two years’ great effort, Prof. Jian Wang and Prof. Qi-Kun Xue’s
collaboration team firstly demonstrated that the 1-UC thick FeSe films grown on
STO substrates are superconducting by direct transport and magnetic
measurements, with an onset transition temperature TC above 40 K (Maximum value
is 54.5 K) and a critical current density JC ~ 1.7×106 A/cm2 at 2 K, which are
much higher than TC ~ 8 K and JC ~ 104 A/cm2 for bulk FeSe. The enhanced
superconductivity with high TC, HC2 and JC makes the 1-UC FeSe thin films on
high-dielectric STO substrate attractive for potential applications, such as
superconducting interconnects, superconducting quantum interference device
(SQUID), and field-effect transistor (FET) devices. Since the superconducting
layer is only 0.55 nm thick, Wang and Xue’s research demonstrated that the 1-UC
FeSe on STO is the thinnest high TC superconductor at present. This work not
only paves the way to searching for new high temperature superconductors and
enhancing superconductivity by interface engineering, but also offers an ideal
platform for understanding the fundamental nature of unconventional
superconductivity.
The paper was published in Chinese Physics Letters (CHIN. PHYS. LETT. 31,
017401 (2014)) with a title of “Direct observation of high-temperature
superconductivity in one-unit-cell FeSe films” http://cpl.iphy.ac.cn/EN/Y2014/V31/I1/017401
and selected for the Editors’ Choice of Science with a title of “A very thin
superconductor” (Science 343, 230 (2014)) http://www.sciencemag.org/content/343/6168/twil.full.
This work was supported by the National Basic Research Program of China,the
National Natural Science Foundation of China and the Ministry of Education of
China.
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Figure: Transport and diamagnetic measurements of 1-UC FeSe
films grown on SrTiO3 (001). a. The temperature dependence of
resistance under zero field. Inset: A schematic structure for the
transport measurements in the heterostructure of 30 nm
amorphous Si /10-UC FeTe/1-UC FeSe/STO. b. The diamagnetic response
measured by a homebuilt two-coil mutual inductance system.
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