BaCd2P2 exhibits photoconductive properties and defect tolerance comparable to GaAs despite low-purity synthesis, supported by lifetime measurements and first-principles defect calculations.
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Development of an immersion xenon triple point cell yielding a measured temperature of 161.40571(55) K that agrees with prior adiabatic results within 0.42 mK.
Cobalt substitution in these nanostructured perovskites increases ferromagnetic coupling and produces a maximum magnetic entropy change of 1.13 J/kg K under 3 T for the x=1 composition.
citing papers explorer
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BaCd2P2: a promising impurity-tolerant counterpart of GaAs for photovoltaics
BaCd2P2 exhibits photoconductive properties and defect tolerance comparable to GaAs despite low-purity synthesis, supported by lifetime measurements and first-principles defect calculations.
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Development of a xenon triple point apparatus suitable for calibrating long-stem SPRTs and preliminary measurements of the temperature
Development of an immersion xenon triple point cell yielding a measured temperature of 161.40571(55) K that agrees with prior adiabatic results within 0.42 mK.
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Magnetocaloric Effect in Nanostructured $La_{0.6}Sr_{0.4}Fe_{1-x}Co_{x}O_3$
Cobalt substitution in these nanostructured perovskites increases ferromagnetic coupling and produces a maximum magnetic entropy change of 1.13 J/kg K under 3 T for the x=1 composition.