TY - JOUR
T1 - Epitaxial stabilization of (111)-oriented frustrated quantum pyrochlore thin films
AU - Wen, Fangdi
AU - Wu, Tsung Chi
AU - Liu, Xiaoran
AU - Terilli, Michael
AU - Kareev, Mikhail
AU - Chakhalian, Jak
N1 - Publisher Copyright:
© 2021 Author(s).
PY - 2021/1/14
Y1 - 2021/1/14
N2 - Frustrated rare-earth pyrochlore titanates, Yb 2Ti 2O 7 and Tb 2Ti 2O 7, have been proposed as promising candidates to realize quantum spin ice (QSI). Multiple exotic quantum phases, including Coulombic ferromagnet, quantum valence bond solid, and quadrupolar ordering, have been predicted to emerge in the QSI state upon the application of a (111)-oriented external magnetic field. Here, we report on the successful layer-by-layer growth of thin films of the frustrated quantum pyrochlores, R 2Ti 2O 7 (R = Er, Yb, and Tb), along the (111) direction. We confirm their high crystallinity and proper chemical composition by a combination of methods, including in situ RHEED, x-ray diffraction, reciprocal space mapping, and x-ray photoelectron spectroscopy. The availability of large area (111)-oriented QSI structures with planar geometry offers a new complementary to the bulk platform to explore the strain and the magnetic field-dependent properties in the quasi-2D limit.
AB - Frustrated rare-earth pyrochlore titanates, Yb 2Ti 2O 7 and Tb 2Ti 2O 7, have been proposed as promising candidates to realize quantum spin ice (QSI). Multiple exotic quantum phases, including Coulombic ferromagnet, quantum valence bond solid, and quadrupolar ordering, have been predicted to emerge in the QSI state upon the application of a (111)-oriented external magnetic field. Here, we report on the successful layer-by-layer growth of thin films of the frustrated quantum pyrochlores, R 2Ti 2O 7 (R = Er, Yb, and Tb), along the (111) direction. We confirm their high crystallinity and proper chemical composition by a combination of methods, including in situ RHEED, x-ray diffraction, reciprocal space mapping, and x-ray photoelectron spectroscopy. The availability of large area (111)-oriented QSI structures with planar geometry offers a new complementary to the bulk platform to explore the strain and the magnetic field-dependent properties in the quasi-2D limit.
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U2 - 10.1063/5.0035702
DO - 10.1063/5.0035702
M3 - Article
AN - SCOPUS:85099389333
SN - 0021-8979
VL - 129
JO - Journal of Applied Physics
JF - Journal of Applied Physics
IS - 2
M1 - 025302
ER -