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Kye L. Okabe et al.
JOURNAL OF APPLIED PHYSICS (2019)
Native filament-to-dielectric interfaces in phase change superlattice memories
Wenduo Chen et al.
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Yonghui Zheng et al.
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Georg K. H. Madsen et al.
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Nian-Ke Chen et al.
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Philippe Kowalczyk et al.
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Mario Behrens et al.
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Jamo Momand et al.
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Alexander V. Kolobov et al.
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Jamo Momand et al.
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Janne Kalikka et al.
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Yuta Saito et al.
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Xiaoming Yu et al.
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W. Zhang et al.
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T. Siegrist et al.
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R. E. Simpson et al.
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A. Klein et al.
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YoungKuk Kim et al.
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MHR Lankhorst et al.
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Electronic switching in phase-change memories
A Pirovano et al.
IEEE TRANSACTIONS ON ELECTRON DEVICES (2004)
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AV Kolobov et al.
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