Nano-Al2O3
doped Mg1−xAlxB2 with
0≤x≤6% were synthesized by
solid state reaction at 750 °C
in Fe tube encapsulation under a vacuum of
10−5 Torr. Resistance measurement
shows that the Tc
decreases with x and
zero resistivity for x = 0
and 6% are obtained at 38 and 35 K, respectively. XRD measurement shows that the
lattice parameter and cell volume also decrease monotonically with increasing
doping levels. From this we infer that the Al has been substituted in the lattice of
MgB2
at Mg sites. Resistivity measurement shows a systematic decrease in
Tc
with doping which also confirms the substitution of Al. Magnetization
studies in the temperature range from 4 to 35 K and in the magnetic
field up to 9 T shows a significant increase in the irreversibility field
(Hirr), critical current density
(Jc) and remanent magnetization
(MR) with increasing
concentration of the Al2O3
nanoparticle. At low fields we have observed large vortex instabilities (known as
a vortex avalanche) associated with all doped samples. The vortex-avalanche
effect is reduced with increasing temperature and vanishes near 20 K. The
results are discussed in terms of local-vortex instabilities caused by doping of
Al2O3
nanoparticles.
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