155 research outputs found
Advantageous grain boundaries in iron pnictide superconductors
High critical temperature superconductors have zero power consumption and
could be used to produce ideal electric power lines. The principal obstacle in
fabricating superconducting wires and tapes is grain boundaries-the
misalignment of crystalline orientations at grain boundaries, which is
unavoidable for polycrystals, largely deteriorates critical current density.
Here, we report that High critical temperature iron pnictide superconductors
have advantages over cuprates with respect to these grain boundary issues. The
transport properties through well-defined bicrystal grain boundary junctions
with various misorientation angles (thetaGB) were systematically investigated
for cobalt-doped BaFe2As2 (BaFe2As2:Co) epitaxial films fabricated on bicrystal
substrates. The critical current density through bicrystal grain boundary
(JcBGB) remained high (> 1 MA/cm2) and nearly constant up to a critical angle
thetac of ~9o, which is substantially larger than the thetac of ~5o for YBCO.
Even at thetaGB > thetac, the decay of JcBGB was much smaller than that of
YBCO.Comment: to appear in Nature Communication
Transport and magnetic properties of Co-doped BaFe_{2}As_{2} epitaxial thin films
We report resistivity, Hall coefficient, current-voltage characteristics, and
magneto-optical imaging measurements of epitaxial Co-doped BaFe_{2}As_{2} thin
films deposited on MgO(001) substrate. The Hall resistivity of the films has a
substantial contribution arising from anomalous Hall effect of ferromagnetic
components. The critical current density (J_{c}) of the films is ~2 MA/cm^{2}
at low temperatures. Differential magneto-optical images of the remanent state
give similar J_{c} values and also exhibit presence of extended defects in the
film.Comment: 9 pages, 4 figure
Thin film growth by pulsed laser deposition and properties of 122-type iron-based superconductor AE(Fe1--xCox)2As2 (AE = alkaline earth)
This paper reports comprehensive results on thin-film growth of 122-type
iron-pnictide superconductors, AE(Fe1-xCox)2As2 (AE = Ca, Sr, and Ba,
AEFe2As2:Co) by a pulsed laser deposition method using a neodymium-doped
yttrium aluminum garnet laser as an excitation source. The most critical
parameter to produce the SrFe2As2:Co and BaFe2As2:Co phases is the substrate
temperature (Ts). It is difficult to produce highly-pure CaFe2As2:Co phase thin
film at any Ts. For BaFe2As2:Co epitaxial films, controlling Ts at 800-850
{\deg}C and growth rate to 2.8-3.3 {\AA}/s produced high-quality films with
good crystallinity, flat surfaces, and high critical current densities > 1
MA/cm2, which were obtained for film thicknesses from 100 to 500 nm. The doping
concentration x was optimized for Ba(Fe1-xCox)2As2 epitaxial films, leading to
the highest critical temperature of 25.5 K in the epitaxial films with the
nominal x = 0.075.Comment: will be published in the special issue of Superconductor Science and
Technology, `Iron12
DKK3 (dickkopf 3 homolog (Xenopus laevis))
Review on DKK3 (dickkopf 3 homolog (Xenopus laevis)), with data on DNA, on the protein encoded, and where the gene is implicated
Analysis of interdiffusion between SmFeAsO0.92F0.08 and metals for ex situ fabrication of superconducting wire
We demonstrate the fabrication of superconducting SmFeAsO1-xFx (Sm-1111)
wires by using the ex-situ powder-in-tube technique. Sm-1111 powder and a
binder composed of SmF3, samarium arsenide, and iron arsenide were used to
synthesize the superconducting core. Although the F content of Sm-1111 is
reduced in the process of ex-situ fabrication, the binder compensates by
sufficiently supplementing the F content, thereby preventing a decrease in the
superconducting transition temperature and a shrinking of the superconducting
volume fraction. Thus, in the superconducting Sm-1111 wire with the binder, the
transport critical current density reaches the highest value of ~4000 A/cm2 at
4.2 K
DC superconducting quantum interference devices fabricated using bicrystal grain boundary junctions in Co-doped BaFe2As2 epitaxial films
DC superconducting quantum interference devices (dc-SQUIDs) were fabricated
in Co-doped BaFe2As2 epitaxial films on (La, Sr)(Al, Ta)O3 bicrystal substrates
with 30deg misorientation angles. The 18 x 8 micro-meter^2 SQUID loop with an
estimated inductance of 13 pH contained two 3 micro-meter wide grain boundary
junctions. The voltage-flux characteristics clearly exhibited periodic
modulations with deltaV = 1.4 micro-volt at 14 K, while the intrinsic flux
noise of dc-SQUIDs was 7.8 x 10^-5 fai0/Hz^1/2 above 20 Hz. The rather high
flux noise is mainly attributed to the small voltage modulation depth which
results from the superconductor-normal metal-superconductor junction nature of
the bicrystal grain boundary
Epitaxial growth and anisotropy of La(O,F)FeAs thin films deposited by Pulsed Laser Deposition
LaFeAsO1-xFx thin films were deposited successfully on (001)-oriented LaAlO3
and MgO substrates from stoichiometric LaFeAsO1-xFx polycrystalline targets
with fluorine concentrations up to x = 0.25 by PLD. Room temperature deposition
and post annealing of the films yield nearly phase pure films with a pronounced
c-axis texture and a strong biaxial in-plane orientation. Transport
measurements show metallic resistance and onset of superconductivity at 11 K.
Hc2(T) was determined by resistive measurements and yield Hc2 values of 3 T at
3.6 K for B||c and 6 T at 6.4 K for B||ab.Comment: 11 pages, 5 figure
Thin Film Growth and Device Fabrication of Iron-Based Superconductors
Iron-based superconductors have received much attention as a new family of
high-temperature superconductors owing to their unique properties and distinct
differences from cuprates and conventional superconductors. This paper reviews
progress in thin film research on iron-based superconductors since their
discovery for each of five material systems with an emphasis on growth,
physical properties, device fabrication, and relevant bulk material properties.Comment: To appear in J. Phys. Soc. Jp
Photoinduced transient states of antiferromagnetic orderings in La1 3Sr2 3FeO3 and SrFeO3 delta thin films observed through time resolved resonant soft x ray scattering
The relationship between the magnetic interaction and photoinduced dynamics in antiferromagnetic perovskites is investigated in this study. In La1 3Sr2 3FeO3 thin films, commensurate spin ordering is accompanied by charge disproportionation, whereas SrFeO3 amp; 8722; amp; 948; thin films show incommensurate helical antiferromagnetic spin ordering due to increased ferromagnetic coupling compared to La1 3Sr2 3FeO3. To understand the photoinduced spin dynamics in these materials, we investigate the spin ordering through time resolved resonant soft x ray scattering. In La1 3Sr2 3FeO3, ultrafast quenching of the magnetic ordering within 130 fs through a nonthermal process is observed, triggered by charge transfer between the Fe atoms. We compare this to the photoinduced dynamics of the helical magnetic ordering of SrFeO3 amp; 8722; amp; 948;. We find that the change in the magnetic coupling through optically induced charge transfer can offer an even more efficient channel for spin order manipulatio
Ultralow-dissipative conductivity by Dirac fermions in BaFeAs
We report on the anomalous behavior of the complex conductivity of
BaFeAs, which is related to the Dirac cone, in the terahertz
(THz)-frequency region. Above the spin-density-wave (SDW) transition
temperature, the conductivity spectra follow the Drude model. In the SDW state,
the imaginary part of the complex conductivity, , is suppressed in
comparison to that expected according to the Drude model. The real part,
, exhibits nearly Drude-like behavior. This behavior (i.e., almost no
changes in and the depression of ) can be regarded as the
addition of extra conductivity without any dissipations in the Drude-type
conductivity. The origin of this ultralow-dissipative conductivity is found to
be due to conductivity contribution from quasiparticles within the Dirac cone.
In other words, we are able to observe the dynamics of Dirac fermions through
the conductivity spectra of BaFeAs, clearly and directly.Comment: 5pages, 3 figure
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