Yuejian Jiao scite author profile

Yuejian Jiao

5Publications

11Citation Statements Received

86Citation Statements Given

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166

Affiliations

Nankai University

Publications

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Improvement on Thermal Stability of Nano-Domains in Lithium Niobate Thin Films

Jiao

Shao

et al. 2020

Crystals

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We present a simple and effective way to improve the thermal stability of nano-domains written with an atomic force microscope (AFM)-tip voltage in a lithium niobate film on insulator (LNOI). We show that nano-domains in LNOI (whether in the form of stripe domains or dot domains) degraded, or even disappeared, after a post-poling thermal annealing treatment at a temperature on the order of ∼100 ∘ C. We experimentally confirmed that the thermal stability of nano-domains in LNOI is greatly improved if a pre-heat treatment is carried out for LNOI before the nano-domains are written. This thermal stability improvement of nano-domains is mainly attributed to the generation of a compensating space charge field parallel to the spontaneous polarization of written nano-domains during the pre-heat treatment process.

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Nano-Domains Produced through a Two-Step Poling Technique in Lithium Niobate on Insulators

Jiao

Shao

et al. 2020

Materials

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We proposed a two-step poling technique to fabricate nanoscale domains based on the anti-parallel polarization reversal effect in lithium niobate on insulator (LNOI). The anti-parallel polarization reversal is observed when lithium niobate thin film in LNOI is poled by applying a high voltage pulse through the conductive probe tip of atomic force microscope, which generates a donut-shaped domain structure with its domain polarization at the center being anti-parallel to the poling field. The donut-shaped domain is unstable and decays with a time scale of hours. With the two-step poling technique, the polarization of the donut-shaped domain can be reversed entirely, producing a stable dot domain with a size of tens of nanometers. Dot domains with diameter of the order of ∼30 nm were fabricated through the two-step poling technique. The results may be beneficial to domain-based applications such as ferroelectric domain memory.

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Fabrication of nano-scale domain structures in bulk Mg-doped LiNbO₃ crystals

Jiao

Wang

Zhang

et al. 2017

J. Phys.: Conf. Ser.

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Conductive domain walls in x-cut lithium niobate crystals

Zhang

Yuezhao

Jiao

et al. 2022

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Conductive ferroelectric domain walls have been the focus of intensive studies in nanoelectronics due to their promising electronic properties. Here, both head-to-head and tail-to-tail domain walls with a large inclination angle ([Formula: see text]90[Formula: see text]) were fabricated on the surface of [Formula: see text]-cut nominally pure congruent lithium niobate crystals. Our results show that both types of domain walls are conductive, while the conductivity of the head-to-head domain walls is larger than that of the tail-to-tail domain walls by about two orders of magnitude at the same inclination angle of domain walls.

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Self-focusing and self-bending of surface plasmons in longitudinally modulated metasurfaces

Jiao

Han

et al. 2019

Optics Communications

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Yuejian Jiao

Improvement on Thermal Stability of Nano-Domains in Lithium Niobate Thin Films

Nano-Domains Produced through a Two-Step Poling Technique in Lithium Niobate on Insulators

Fabrication of nano-scale domain structures in bulk Mg-doped LiNbO₃ crystals

Conductive domain walls in x-cut lithium niobate crystals

Self-focusing and self-bending of surface plasmons in longitudinally modulated metasurfaces

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Yuejian Jiao

Improvement on Thermal Stability of Nano-Domains in Lithium Niobate Thin Films

Nano-Domains Produced through a Two-Step Poling Technique in Lithium Niobate on Insulators

Fabrication of nano-scale domain structures in bulk Mg-doped LiNbO3 crystals

Conductive domain walls in x-cut lithium niobate crystals

Self-focusing and self-bending of surface plasmons in longitudinally modulated metasurfaces

Contact Info

Product

Resources

About

Fabrication of nano-scale domain structures in bulk Mg-doped LiNbO₃ crystals