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Evolution of orbital phases with particle size in nanoscale stoichiometric LaMnO3

The thermodynamically stable long-range orbital order in bulk LaMnO3 becomes metastable at nanoscale around a critical particle size d_C~20 nm. The orbital order-disorder transition switches from reversible to irreversible at d_C while the resistance in the orbital ordered state decays by 2-4% over a time scale of ~3000s. At well below d_C, of course, a stable orbital disordered phase emerges. The orthorhombic distortion of the underlying crystallographic structure (space group Pbnm) decreases systematically with the decrease in particle size and at far below d_C (e.g., at ~10 nm), the structure becomes cubic (space group Pm-3m). Using the crystallographic and electrical resistance data, a phase diagram has been constructed showing the evolution of different orbital phases as a function of particle size across ~10 nm to bulk for stoichiometric LaMnO3.

preprint2011arXivOpen access
Parthasarathi MondalDipten BhattacharyaAnwesha MaityOmprakash ChakrabartiA. K. M. Maidul IslamManabendra Mukherjee
cond-mat.str-elcond-mat.mtrl-sci
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Parthasarathi MondalDipten BhattacharyaAnwesha MaityOmprakash ChakrabartiA. K. M. Maidul IslamManabendra Mukherjee

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