ИСТИНА |
Войти в систему Регистрация |
|
Интеллектуальная Система Тематического Исследования НАукометрических данных |
||
We report the experimental observation of vortices on the surface of a 50nm-thick layer of Cu in the hybrid structure Cu/N b with ultra-low temperature Scanning Tunneling Spectroscopy (STS). In the studied samples the non-superconducting Cu-layer acquires superconducting correlations due to the proximity effect with 100 nm-thick superconducting N b. To avoid the oxidation at Cu-surface and allow STS, the samples were ex-situ grown on SiO2/Si in the inversed order, i.e. Cu was deposited directly on the substrate, Nb was deposited on Cu. Then the samples were introduced to the UHV STM chamber and cleaved in-situ. The structural analysis showed that upon cleavage the samples break at Cu − SiO2 interface, thus exposing fresh Cu surface. The presence of the proximity effect at the Cu film surface was first evidenced by observation of a proximity gap in the tunneling conductance spectra dI(V )/dV , in clear relation to the value of the superconducting gap of bulk N b. The evolution of the proximity spectra with temperature was also studied in the range (0.3-4.2)K. Upon application of an external magnetic field, spatial variations of the tunneling conductance spectra were observed. These variations appear in the detailed STS maps as round nm-size spots, in the centers of which the proximity gap vanishes. The density of spots rises continuously with magnetic field; it corresponds perfectly to the expected density of Abrikosov vortices in Nb. We identify the observed spots as proximity induced vortices in the normal Cu. On the basis of our STS data, we have determined the size and shape of the proximity vortex cores, and evaluated the coherence length in Cu. The autors thanks the RFBR 14-02-31798
№ | Имя | Описание | Имя файла | Размер | Добавлен |
---|---|---|---|---|---|
1. | Abstract book | abstract_book_final_without_cover.pdf | 6,6 МБ | 19 мая 2015 [Stolyarov] |