Thickness, humidity, and polarization dependent ferroelectric switching and conductivity in Mg doped lithium niobate

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abstract

Mg doped lithium niobate (Mg:LN) exhibits several advantages over undoped LN such as resistance to photorefraction, lower coercive fields, and p-type conductivity that is particularly pronounced at domain walls and opens up a range of applications, e.g., in domain wall electronics. Engineering of precise domain patterns necessitates well founded knowledge of switching kinetics, which can differ significantly from that of undoped LN. In this work, the role of humidity and sample composition in polarization reversal has been investigated under application of the same voltage waveform. Control over domain sizes has been achieved by varying the sample thickness and initial polarization as well as atmospheric conditions. In addition, local introduction of proton exchanged phases allows for inhibition of domain nucleation or destabilization, which can be utilized to modify domain patterns. Polarization dependent current flow, attributed to charged domain walls and band bending, demonstrates the rectifying ability of Mg: LN in combination with suitable metal electrodes that allow for further tailoring of conductivity. (C) 2015 AIP Publishing LLC.

keywords

DOMAIN INVERSION; FORCE MICROSCOPY; LINBO3; CRYSTALS; RESISTANCE; SURFACES; REVERSAL; DIODE

subject category

Physics

authors

Neumayer, SM; Strelcov, E; Manzo, M; Gallo, K; Kravchenko, II; Kholkin, AL; Kalinin, SV; Rodriguez, BJ

our authors

foto Andrei Kholkin

Andrei Kholkin

Research Coordinator

Groups

2 - Multifunctional Ferroic Ceramics and Nanostructures

acknowledgements

This research was funded by the European Commission within FP7 Marie Curie Initial Training Network

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Publication Details

type
Journal Article
year
2015
journal
JOURNAL OF APPLIED PHYSICS
volume
118
article number
244103
publisher
AMER INST PHYSICS
issn
0021-8979
issue
24
digital object identifier
10.1063/1.4938386
web of science article identifier
WOS:000367535100019

Journal Metrics (JCR 2019)

Journal Impact Factor
2.286
Journal Impact Factor (5 yrs)
2.138
category normalized journal percentile
54.87

Citations

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