65 research outputs found
Magnetic field dependence of the oxygen isotope effect on the magnetic penetration depth in hole-doped cuprate superconductors
The magnetic field dependence of the oxygen-isotope (^{16}O/^{18}O) effect
(OIE) on the in-plane magnetic field penetration depth \lambda_{ab} was studied
in the hole-doped high-temperature cuprate superconductors YBa_2Cu_4O_8,
Y_0.8Pr_0.2Ba_2Cu_3O_7-\delta, and Y_0.7Pr_0.3Ba_2Cu_3O_7-\delta. It was found
that \lambda_ab for the ^{16}O substituted samples increases stronger with
increasing magnetic field than for the ^{18}O ones. The OIE on \lambda_ab
decreases by more than a factor of two with increasing magnetic field from
\mu_0H=0.2 T to \mu_0H=0.6 T. This effect can be explained by the isotope
dependence of the in-plane charge carrier mass m^\ast_{ab}.Comment: 4 pages, two figure
Formation of hydrogen impurity states in silicon and insulators at low implantation energies
The formation of hydrogen-like muonium (Mu) has been studied as a function of
implantation energy in intrinsic Si, thin films of condensed van der Waals
gases (N2, Ne, Ar, Xe), fused and crystalline quartz and sapphire. By varying
the initial energy of positive muons (mu+) between 1 and 30 keV the number of
electron-hole pairs generated in the ionization track of the mu+ can be tuned
between a few and several thousand. The results show the strong suppression of
the formation of those Mu states that depend on the availability of excess
electrons. This indicates, that the role of H-impurity states in determining
electric properties of semiconductors and insulators depends on the way how
atomic H is introduced into the material.Comment: 4 pages, 4 enscapulated postscript figures, uses revtex4 twocolumn
style to be published in Physical Review Letter
Muon-Spin-Rotation Measurements of the Penetration Depth in the Infinite-Layer Electron-Doped Cuprate Superconductor Sr0.9La0.1CuO2
Muon spin rotation (mSR) measurements of the in-plane penetration depth
lambda_ab have been performed in the electron-doped infinite layer high-Tc
superconductor (HTS) Sr0.9La0.1CuO2. Absence of the magnetic rare-earth ions in
this compound allowed to measure for the first time the absolute value of
lambda_ab(0) in electron-doped HTS using mSR. We found lambda_ab(0)=116(2) nm.
The zero-temperature depolarization rate sigma(0)?1/lambda_ab(0)^2=4.6(1) MHz
is more than four times higher than expected from the Uemura line. Therefore
this electron-doped HTS does not follow the Uemura relation found for
hole-doped HTS.Comment: to be published in Physical Review Letter
Direct observation of the oxygen isotope effect on the in-plane magnetic field penetration depth in optimally doped YBaCuO
We report the first direct observation of the oxygen-isotope
(O/O) effect on the in-plane penetration depth in
a nearly optimally doped YBaCuO film using the novel
low-energy muon-spin rotation technique. Spin polarized low energy muons are
implanted in the film at a known depth beneath the surface and precess in
the local magnetic field . This feature allows us to measure directly the
profile of the magnetic field inside the superconducting film in the
Meissner state and to make a model independent determination of .
A substantial isotope shift % at 4 K is
observed, implying that the in-plane effective supercarrier mass
is oxygen-isotope dependent with .Comment: 4 pages, 2 figure
Landau diamagnetism of a weakly bound muonium atom
The ionization with temperature of weakly bound muonium atoms in undoped CdS has been studied using the technique of muon spin relaxation in a transverse magnetic field of 10Â mT. For this atom the Coulomb binding energy between the muon and the electron is sufficiently small that the Landau diamagnetic term determines the magnetic behavior of the system: due to the diamagnetic interaction the muon precession in a transverse magnetic field exhibits a frequency shift of approximately 0.5% around the ionization temperature.http://www.sciencedirect.com/science/article/B6TVM-448FTXD-1/1/e6a2420c40c0e5e534a3e5d0f052d41
Anisotropy and internal field distribution of MgB2 in the mixed state at low temperatures
Magnetization and muon spin relaxation on MgB2 were measured as a function of
field at 2 K. Both indicate an inverse-squared penetration depth strongly
decreasing with increasing field H below about 1 T. Magnetization also suggests
the anisotropy of the penetration depth to increase with increasing H,
interpolating between a low Hc1 and a high Hc2 anisotropy. Torque vs angle
measurements are in agreement with this finding, while also ruling out drastic
differences between the mixed state anisotropies of the two basic length scales
penetration depth and coherence length.Comment: 4 pages, 4 figure
Study of the magnetic penetration depth in RbOs_2O_6
Measurements of the magnetic field penetration depth \lambda in the
pyrochlore superconductor RbOs_2O_6 (T_c\simeq6.3 K) were carried out by means
of the muon-spin-rotation (\muSR) technique. At low temperatures
\lambda^{-2}(T) saturates and becomes constant below T\simeq 0.2T_c, in
agreement with what is expected for weak-coupled s-wave BCS superconductors.
The value of \lambda at T=0 was found to be in the range of 250 nm to 300 nm.
\muSR and equilibrium magnetization measurements both reveal that at low
temperatures is almost (at the level of 10%) independent of the
applied magnetic field. This result suggests that the superconducting energy
gap in RbOs_2O_6 is isotropic.Comment: 8 pages, 9 figure
Pressure effects on the transition temperature and the magnetic field penetration depth in the pyrochlore superconductor RbOs_2O_6
We report magnetization measurements under high hydrostatic pressure in the
newly discovered pyrochlore superconductor RbOs_2O_6 (T_c\simeq6.3K at p=0). A
pronounced and {\it positive} pressure effect (PE) on T_c with dT_c/dp
=0.090(1)K/kbar was observed, whereas no PE on the magnetic penetration depth
\lambda was detected. The relative pressure shift of T_c [ dlnT_c/dp \simeq
1.5%/kbar] is comparable with the highest values obtained for highly underdoped
high-temperature cuprate superconductors. Our results suggest that RbOs_2O_6 is
an adiabatic BCS-type superconductor.Comment: 11 pages, 4 figure
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