Lanthanide-Assisted Deposition of Strongly Electro-optic PZT Thin Films on Silicon: Toward Integrated Active Nanophotonic Devices

George, John P.; Smet, Philippe; Botterman, Jonas; Bliznuk, Vitaliy; Woestenborghs, Wouter; Thourhout, Dries Van; Neyts, Kristiaan; Beeckman, Jeroen

doi:10.1021/acsami.5b01781

Cited by 59 publications

(54 citation statements)

References 44 publications

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“…An alternative route applicable to both SOI and SiN is to overlay the waveguide with a strong electro-refractive or electroabsorptive cladding layer. Results have been reported for graphene [101], for poled polymers [102], for ferro-electric materials [103] and for ABC-metamaterials [104], [105].…”

Section: F Pockels Effect and High-speed Functionsmentioning

confidence: 99%

Expanding the Silicon Photonics Portfolio With Silicon Nitride Photonic Integrated Circuits

Rahim

Ryckeboer

Subramanian

et al. 2017

J. Lightwave Technol.

258

155

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Abstract-The high index contrast silicon-on-insulator platform is the dominant CMOS 1 compatible platform for photonic integration. The successful use of silicon photonic chips in optical communication applications has now paved the way for new areas where photonic chips can be applied. It is already emerging as a competing technology for sensing and spectroscopic applications. This increasing range of applications for silicon photonics instigates an interest in exploring new materials, as silicon-oninsulator has some drawbacks for these emerging applications, e.g. silicon is not transparent in the visible wavelength range. Silicon nitride is an alternate material platform. It has moderately high index contrast, and like silicon-on-insulator, it uses CMOS processes to manufacture photonic integrated circuits. In this paper, the advantages and challenges associated with these two material platforms are discussed. The case of dispersive spectrometers, which are widely used in various silicon photonic applications, is presented for these two material platforms.

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Section: F Pockels Effect and High-speed Functionsmentioning

confidence: 99%

Expanding the Silicon Photonics Portfolio With Silicon Nitride Photonic Integrated Circuits

Rahim

Ryckeboer

Subramanian

et al. 2017

J. Lightwave Technol.

258

155

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“…Switchable polarization in ferroelectric materials due to the orientation of dipoles by an external electric field is central to various energy and information storage technologies including sensors and actuators [1], electro-optic devices [2][3][4], and ferroelectric field-effect transistors for nonvolatile memories [5,6]. In past years it has been revealed that ferroelectric polarization is not exclusive to polar materials and can be induced throughout the nonferroelectric layer of the heterostructure by combining a nonferroelectric oxide such as SrTiO 3 with a ferroelectric oxide, e.g., BaTiO 3 [7], or even with another nonferroelectric oxide, e.g., LaCrO 3 [8].…”

Section: Introductionmentioning

confidence: 99%

Effect of intrinsic point defects on ferroelectric polarization behavior of SrTiO3

Klyukin

Alexandrov

2017

Phys. Rev. B

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The effect of a variety of intrinsic defects and defect clusters in bulk and thin films of SrTiO3 on ferroelectric polarization and switching mechanism is investigated by means of density-functionaltheory (DFT) based calculations and the Berry phase approach. Our results show that both the titanium Ti •• Sr and strontium Sr Ti antisite defects induce ferroelectric polarization in SrTiO3, with the Ti •• Sr defect causing a more pronounced spontaneous polarization and higher activation barriers of polarization reversal than Sr Ti . The presence of oxygen vacancies bound to the antisite defects can either enhance or diminish polarization depending on the configuration of the defect pair, but it always leads to larger activation barriers of polarization switching as compared to the antisite defects with no oxygen vacancies. We also show that the magnitude of spontaneous polarization in SrTiO3 can be tuned by controlling the degree of Sr/Ti nonstroichiometry. Other intrinsic point defects such as Frenkel defect pairs and electron small polarons also contribute to the emergence of ferroelectric polarization in SrTiO3.

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“…Recently our group demonstrated that highly textured PZT thin films can be deposited on glass substrates using a cheap solution-based deposition method [18]. The process leads to a highquality polycrystalline layer as shown in Fig.…”

Section: Characteristics Of the Deposited Ferroelectric Layermentioning

confidence: 99%

“…A 10 nm thin buffer layer is deposited on the glass substrate and the electrodes to ensure good crystal growth of the PZT, which is the next layer in the stack and is about 0.84 µm thick. The minimally required thickness of this buffer layer was determined experimentally [18], while the thickness of the PZT layer was chosen as a compromise between processing time and the required amount of electric field averaging as predicted by the simulations. On top of the PZT layer is a thin polyimide (PI) alignment layer, which is in contact with the nematic liquid crystal.…”

Section: Liquid Crystal Lens Geometrymentioning

confidence: 99%

Ferroelectric thin films with liquid crystal for gradient index applications

Willekens¹,

George²,

Neyts³

et al. 2016

Opt. Express

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We report on the first ever combination of a thin film of lead zirconate titanate (PZT) with a liquid crystal (LC) layer. Many liquid crystal applications use a transparent conductive oxide to switch the liquid crystal. Our proposed processing does not, instead relying on the extremely high dielectric constant of the ferroelectric layer to extend the electric field from widely spaced electrodes over the liquid crystal. It eliminates almost entirely the fringe field problems that arise in nearly all the liquid crystal devices that use multiple addressing electrodes. We show, both via rigorous simulations as well as experiments, that the addition of a PZT layer over the addressing electrodes leads to a markedly improved LC switching performance at distances of up to 30 µm from the addressing electrodes with the current PZT-layer thickness of 0.84 µm. This improvement in switching is used to tune the focal length of the microlens with electrodes spaced at 30 µm.

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Lanthanide-Assisted Deposition of Strongly Electro-optic PZT Thin Films on Silicon: Toward Integrated Active Nanophotonic Devices

Cited by 59 publications

References 44 publications

Expanding the Silicon Photonics Portfolio With Silicon Nitride Photonic Integrated Circuits

Expanding the Silicon Photonics Portfolio With Silicon Nitride Photonic Integrated Circuits

Effect of intrinsic point defects on ferroelectric polarization behavior of SrTiO3

Ferroelectric thin films with liquid crystal for gradient index applications

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