35 research outputs found
Ising Superconductivity and Quantum Phase Transition in Macro-Size Monolayer NbSe2
Two-dimensional (2D) transition metal dichalcogenides (TMDs) have a range of
unique physics properties and could be used in the development of electronics,
photonics, spintronics and quantum computing devices. The mechanical
exfoliation technique of micro-size TMD flakes has attracted particular
interest due to its simplicity and cost effectiveness. However, for most
applications, large area and high quality films are preferred. Furthermore,
when the thickness of crystalline films is down to the 2D limit (monolayer),
exotic properties can be expected due to the quantum confinement and symmetry
breaking. In this paper, we have successfully prepared macro-size atomically
flat monolayer NbSe2 films on bilayer graphene terminated surface of
6H-SiC(0001) substrates by molecular beam epitaxy (MBE) method. The films
exhibit an onset superconducting critical transition temperature above 6 K, 2
times higher than that of mechanical exfoliated NbSe2 flakes. Simultaneously,
the transport measurements at high magnetic fields reveal that the parallel
characteristic field Bc// is at least 4.5 times higher than the paramagnetic
limiting field, consistent with Zeeman-protected Ising superconductivity
mechanism. Besides, by ultralow temperature electrical transport measurements,
the monolayer NbSe2 film shows the signature of quantum Griffiths singularity
when approaching the zero-temperature quantum critical point
Observation of Quantum Griffiths Singularity and Ferromagnetism at Superconducting LaAlO3/SrTiO3(110) Interface
Diverse phenomena emerge at the interface between band insulators LaAlO3 and
SrTiO3, such as superconductivity and ferromagnetism, showing an opportunity
for potential applications as well as bringing fundamental research interests.
Particularly, the two-dimensional electron gas formed at LaAlO3/SrTiO3
interface offers an appealing platform for quantum phase transition from a
superconductor to a weakly localized metal. Here we report the
superconductor-metal transition in superconducting two-dimensional electron gas
formed at LaAlO3/SrTiO3(110) interface driven by a perpendicular magnetic
field. Interestingly, when approaching the quantum critical point, the dynamic
critical exponent is not a constant but a diverging value, which is a direct
evidence of quantum Griffiths singularity raised from quenched disorder at
ultralow temperatures. Furthermore, the hysteretic property of
magnetoresistance was firstly observed at LaAlO3/SrTiO3(110) interfaces, which
suggests potential coexistence of superconductivity and ferromagnetism
Interface induced Zeeman-protected superconductivity in ultrathin crystalline lead films
Two dimensional (2D) superconducting systems are of great importance to
exploring exotic quantum physics. Recent development of fabrication techniques
stimulates the studies of high quality single crystalline 2D superconductors,
where intrinsic properties give rise to unprecedented physical phenomena. Here
we report the observation of Zeeman-type spin-orbit interaction protected
superconductivity (Zeeman-protected superconductivity) in 4 monolayer (ML) to 6
ML crystalline Pb films grown on striped incommensurate (SIC) Pb layers on
Si(111) substrates by molecular beam epitaxy (MBE). Anomalous large in-plane
critical field far beyond the Pauli limit is detected, which can be attributed
to the Zeeman-protected superconductivity due to the in-plane inversion
symmetry breaking at the interface. Our work demonstrates that in
superconducting heterostructures the interface can induce Zeeman-type
spin-orbit interaction (SOI) and modulate the superconductivity
Induced four fold anisotropy and bias in compensated NiFe/FeMn double layers
A vector spin model is used to show how frustrations within a multisublattice
antiferromagnet such as FeMn can lead to four-fold magnetic anisotropies acting
on an exchange coupled ferromagnetic film. Possibilities for the existence of
exchange bias are examined and shown to exist for the case of weak chemical
disorder at the interface in an otherwise perfect structure. A sensitive
dependence on interlayer exchange is found for anisotropies acting on the
ferromagnet through the exchange coupling, and we show that a wide range of
anisotropies can appear even for a perfect crystalline structure with an
ideally flat interface.Comment: 7 pages, 7 figure