51 research outputs found
Resonance-state-induced superconductivity at high Indium contents in In-doped SnTe
We report a reinvestigation of superconducting SnInTe at both
low and high In doping levels. Analysis of the superconductivity reveals a
fundamental change as a function of \textit{x}: the system evolves from a
weakly coupled to a strongly coupled superconductor with increasing indium
content. Hall Effect measurements further show that the carrier density does
not vary linearly with Indium content; indeed at high Indium content, the
samples are overall \textit{n}-type, which is contrary to expectations of the
standard picture of In replacing Sn in this material. Density
functional theory calculations probing the electronic state of In in SnTe show
that it does not act as a trivial hole dopant, but instead forms a distinct,
partly filled In 5\textit{s} - Te 5\textit{p} hybridized state centered around
E, very different from what is seen for other nominal hole dopants such as
Na, Ag, and vacant Sn sites. We conclude that superconducting In-doped SnTe
therefore cannot be considered as a simple hole doped semiconductor.Comment: 12 pages and 7 figure
Anomalous conductivity tensor in the Dirac semimetal Na_3Bi
Na3Bi is a Dirac semimetal with protected nodes that may be sensitive to the
breaking of time-reversal invariance in a magnetic field B. We report
experiments which reveal that both the conductivity and resistivity tensors
exhibit robust anomalies in B. The resistivity is B-linear up to 35
T, while the Hall angle exhibits an unusual profile approaching a
step-function. The conductivities and share
identical power-law dependences at large B. We propose that these significant
deviations from conventional transport result from an unusual sensitivity of
the transport lifetime to B. Comparison with Cd3As2 is made.Comment: 8 pages, 5 figure
Experimental tests of the chiral anomaly magnetoresistance in the Dirac-Weyl semimetals NaBi and GdPtBi
In the Dirac/Weyl semimetal, the chiral anomaly appears as an "axial" current
arising from charge-pumping between the lowest (chiral) Landau levels of the
Weyl nodes, when an electric field is applied parallel to a magnetic field . Evidence for the chiral anomaly was obtained from the longitudinal
magnetoresistance (LMR) in NaBi and GdPtBi. However, current jetting
effects (focussing of the current density ) have raised general concerns
about LMR experiments. Here we implement a litmus test that allows the
intrinsic LMR in NaBi and GdPtBi to be sharply distinguished from pure
current jetting effects (in pure Bi). Current jetting enhances along the
mid-ridge (spine) of the sample while decreasing it at the edge. We measure the
distortion by comparing the local voltage drop at the spine (expressed as the
resistance ) with that at the edge (). In Bi,
sharply increases with but decreases (jetting effects are
dominant). However, in NaBi and GdPtBi, both and
decrease (jetting effects are subdominant). A numerical simulation allows the
jetting distortions to be removed entirely. We find that the intrinsic
longitudinal resistivity in NaBi decreases by a factor of
10.9 between = 0 and 10 T. A second litmus test is obtained from the
parametric plot of the planar angular magnetoresistance. These results
strenghthen considerably the evidence for the intrinsic nature of the
chiral-anomaly induced LMR. We briefly discuss how the squeeze test may be
extended to test ZrTe.Comment: 17 pages, 8 figures, new co-authors added, new Fig. 6a added. In
press, PR
Bulk crystal growth and electronic characterization of the 3D Dirac Semimetal Na3Bi
High quality hexagon plate-like Na3Bi crystals with large (001) plane
surfaces were grown from a molten Na flux. The freshly cleaved crystals were
analyzed by low temperature scanning tunneling microscopy (STM) and
angle-resolved photoemission spectroscopy (ARPES), allowing for the
characterization of the three-dimensional (3D) Dirac semimetal (TDS) behavior
and the observation of the topological surface states. Landau levels (LL) were
observed, and the energy-momentum relations exhibited a linear dispersion
relationship, characteristic of the 3D TDS nature of Na3Bi. In transport
measurements on Na3Bi crystals the linear magnetoresistance and Shubnikov-de
Haas (SdH) quantum oscillations are observed for the first time.Comment: To be published in a special issue of APL Material
- …