Spin and angle resolved photoemission on non-magnetic low-dimensional systems
The electronic structure of non-magnetic low-dimensional materials can acquire a spin
structure due to the breaking of the inversion symmetry at the surface or interface. This so …
structure due to the breaking of the inversion symmetry at the surface or interface. This so …
Metallic quantum well states in artificial structures of strongly correlated oxide
The quantum confinement of strongly correlated electrons in artificial structures provides a
platform for studying the behavior of correlated Fermi-liquid states in reduced dimensions …
platform for studying the behavior of correlated Fermi-liquid states in reduced dimensions …
Structure of silicene on a Ag (111) surface studied by reflection high-energy positron diffraction
The structure of silicene fabricated on a Ag (111) surface was determined using reflection
high-energy positron diffraction with a linac-based brightness-enhanced intense positron …
high-energy positron diffraction with a linac-based brightness-enhanced intense positron …
Quantum well states in ultrathin Bi films: Angle-resolved photoemission spectroscopy and first-principles calculations study
Quantum well states (QWSs) in ultrathin Bi (001) films grown on Si (111)-7× 7 with
thicknesses up to several tens of nanometers were studied by angle-resolved …
thicknesses up to several tens of nanometers were studied by angle-resolved …
Quantum electronic stability and spectroscopy of ultrathin Pb films on
The growth of Pb on Si (111) 7× 7 has been studied with photoelectron spectroscopy. At low
temperature (110 K), Pb grows in a quasi layer-by-layer mode that allows for the direct …
temperature (110 K), Pb grows in a quasi layer-by-layer mode that allows for the direct …
Atomic‐Scale Characterization of Negative Differential Resistance in Ferroelectric Bi2WO6
Negative differential resistance (NDR), a quantum nonlinear electron transport process, has
long attracted research interest owing to its intriguing underlying physics and promising …
long attracted research interest owing to its intriguing underlying physics and promising …
Coherent electronic fringe structure in incommensurate silver-silicon quantum wells
Atomically uniform silver films grown on highly doped n-type Si (111) substrates show fine-
structured electronic fringes near the silicon valence band edge as observed by angle …
structured electronic fringes near the silicon valence band edge as observed by angle …
[HTML][HTML] Evidence of silicide at the ni/β-si3n4 (0001)/si (111) interface
We present a study of a sub-nanometre interlayer of crystalline silicon nitride at the Ni/Si
interface. We performed transmission electron microscopy measurements complemented by …
interface. We performed transmission electron microscopy measurements complemented by …
Origin of the Anomalous Mass Renormalization in Metallic Quantum Well States of Strongly Correlated Oxide
In situ angle-resolved photoemission spectroscopy (ARPES) has been performed on SrVO 3
ultrathin films, which show metallic quantum well (QW) states, to unveil the origin of the …
ultrathin films, which show metallic quantum well (QW) states, to unveil the origin of the …
Quantum confinement induced metal-insulator transition in strongly correlated quantum wells of superlattices
Dynamical mean-field theory (DMFT) has been employed in conjunction with density
functional theory (DFT+ DMFT) to investigate the metal-insulator transition (MIT) of strongly …
functional theory (DFT+ DMFT) to investigate the metal-insulator transition (MIT) of strongly …