Colossal magnetoresistance shot the manganites to fame but not fortune. The subsequent rollercoaster levels of interest mimic the free-energy landscapes used to interpret modern data.
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References
Renner, Ch., Aeppli, G., Kim, B.-G., Soh, Y.-A. & Cheong, S.-W. Nature 416, 518–521 (2002).
Ahn, K. H., Lookman, T. & Bishop, A. R. Nature 428, 401–404 (2004).
Wu, W., Israel, C., Hur, N., Park, S., Cheong, S.-W. & de Lozanne, A. Nature Mater. 5, 881–886 (2006).
Uehara, M., Mori, S., Chen, C. H. & Cheong, S.-W. Nature 399, 560–563 (1999).
Jin, S. et al. Science 264, 413–415 (1994).
Baibich, M. N. et al. Phys. Rev. Lett. 61, 2472–2475 (1988).
Fäth, M. et al. Science 285, 1540–1542 (1999).
Israel, C., Hyun, C., de Lozanne, A., Phark, S. & Khim, Z. G. Rev. Sci. Inst. 77, 023704 (2006).
Littlewood, P. Nature 399, 529–531 (1999).
Milward, G. C., Calderón, M. J. & Littlewood, P. B. Nature 433, 607–610 (2005).
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Mathur, N. All aboard the manganite rollercoaster. Nature Mater 5, 849–850 (2006). https://doi.org/10.1038/nmat1761
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DOI: https://doi.org/10.1038/nmat1761
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