Systematic tuning of the conduction mechanisms in ferroelectric thin films

Levasseur, D.; Bouyssou, E.; Paolis, Rosa De; Rousseau, Anthony; Coccetti, Fabio; Guégan, Guillaume; Payan, Sandrine; Maglione, Mario

doi:10.1088/0953-8984/25/49/495901

Cited by 14 publications

(13 citation statements)

References 67 publications

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“…The increase at high temperatures, more visible for low frequencies, comes from the diffusion of charge carriers which increases when the temperature increases [26,27]. In the case of ferroelectrics, the low frequency diffusion is generaly attributed to an extrinsic contribution like electronic conduction or oxygen vacancy migration [16,27,28]. In the case of acceptor-doped ferroelectrics (manganese in our case), the charge carrier diffusion is generally attributed to oxygen vacancy migration [16,27].…”

Section: Temperature Stabilitymentioning

confidence: 65%

“…In the case of ferroelectrics, the low frequency diffusion is generaly attributed to an extrinsic contribution like electronic conduction or oxygen vacancy migration [16,27,28]. In the case of acceptor-doped ferroelectrics (manganese in our case), the charge carrier diffusion is generally attributed to oxygen vacancy migration [16,27]. The charge carrier diffusion is not visible at high frequencies (100 kHz).…”

Section: Temperature Stabilitymentioning

confidence: 76%

“…1% manganese doping in substitution of the Ti-ions has been employed in order to reduce the low frequency diffusion and high frequency losses [14]. Electron acceptor doping permits us to compensate for oxygen vacancies which are the main defects that contribute to the conduction losses in ferroelectric thin films [14][15][16]. Moreover, manganese doping helps reduce the domain wall motion contribution to the permittivity which is very dissipative [14].…”

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confidence: 99%

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Temperature stable BaSrTiO3 thin films suitable for microwave applications

et al. 2015

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In this paper, the properties of an optimized BaSrTiO 3 thin film, deposited on an alumina substrate using a sol-gel process, are presented. The real and imaginary parts of the permittivity and the tunability have been measured over 7 decades of frequency and in a temperature interval of 320• C, which provides a good knowledge of the material properties for microwave applications. The dielectric properties of the films show a good stability in frequency and in temperature. From −80• C to 20• C, the permittivity changes less than 2% and from −75 • C to 100• C, the tunability stays higher than 90% of its maximum value.The frequency dependence of the relative permittivity of the thin film is rather small since it only varies from 375 at 1 kHz to 350 at 5 GHz. As a main consequence, the tunability which attains almost 60% under a bias field of 400 kV/cm, is very stable in frequency up to 5 GHz. The dielectric losses tan δ, measured up to 1 GHz, stay below 0.02 for the complete frequency range. Although the material is in the ferroelectric phase, the hysteresis effect is quite negligible, which results in a well-determined permittivity value for a given electric bias field. The characterized thin film has been integrated into a reflectarray cell allowing a dynamic control of the reflected phase. The measured phase-shift value is close to the simulated one, showing the performance of the material.

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Section: Temperature Stabilitymentioning

confidence: 65%

Section: Temperature Stabilitymentioning

confidence: 76%

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confidence: 99%

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Temperature stable BaSrTiO3 thin films suitable for microwave applications

et al. 2015

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“…This 1% dopant rate has been found to be optimum 7 for reducing the leakage current, the dielectric losses, and the low frequency charge carrier diffusion. 7,10,11 Platinum top electrodes have been deposited by RF sputtering in order to realize a MIM capacitor. The capacitance and the dielectric loss factor (tan d) have been measured using an Agilent 4294A impedance meter at 100 kHz.…”

Section: Methodsmentioning

confidence: 99%

Decomposition of the different contributions to permittivity, losses, and tunability in BaSrTiO3 thin films using the hyperbolic law

Nadaud

Borderon

Renoud

et al. 2016

Journal of Applied Physics

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In this paper, the different contributions to the permittivity of a 1% manganese-doped BaSrTiO 3 thin film are presented as a function of the applied DC field. The hyperbolic law has been used to discern the lattice, domain wall vibration, and pinning/unpinning contributions. This decomposition permits us to study the weight of the respective contribution in the total permittivity, the losses, and the tunability. By determining the figure of merit (FoM) of each contribution, the ratio between tunability and losses, it is possible to identify the phenomenon which should be limited or enhanced in order to optimize the material's dielectric properties. It is shown that the tunability of the domain wall contribution (approximately 80%) is very important compared to the lattice contribution (41%), the associated dissipation factor, however, is also much larger (0.2 instead of 0.014). Even if the domain wall contribution has been shown to be weak in the investigated thin film (less than 3% in permittivity and tunability), the weight of the losses is not negligible (around 18%). Hence, the domain contribution has to be limited in order to conserve a high FoM for the material. Moreover, it is shown that the AC field used for the material's characterization is important because it governs the weight of the domain wall losses and thus the FoM. V C 2016 AIP Publishing LLC.

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“…Besides, BST material is known to present a low level of dielectric losses. Moreover, the doping of BST material can drastically improve the dielectric losses and leakage current of the capacitors [1]. Consequently, BST thin films represents a good candidate to perform tunable capacitors for RF and microwave applications like antenna tuner, tunable filter, and phase shifter [2].…”

Section: Introductionmentioning

confidence: 99%

Thermo-mechanical simulation to optimize the integration of a BST stacked MIMIM capacitor

Gardes

Roqueta

Diatta

et al. 2016

2016 17th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and

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For the last decade, paraelectric BaxSr1-xTiO3 (BST) thin films have been especially studied to fabricate MIM capacitor for capacitance tuning applications. This paper describes the mechanisms of cracks apparition under BST stacked MIMIM capacitors (Metal Insulator Metal Insulator Metal) built on silicon substrate. The methodology used in this study to have a further understanding of this phenomenon is to investigate 2D process simulations, based on an elastic model. Hence, it could be evidenced that the gap between the extreme stress levels induced by an annealing performed at the end of the capacitor manufacturing is the main contributor in the crack formation. Then, the change from silicon to a sapphire substrate was implemented to avoid cracks in the real process integration. Finally, the capacitor devices could be tested and were demonstrated to exhibit better electrical specifications.

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Systematic tuning of the conduction mechanisms in ferroelectric thin films

Cited by 14 publications

References 67 publications

Temperature stable BaSrTiO3 thin films suitable for microwave applications

Temperature stable BaSrTiO3 thin films suitable for microwave applications

Decomposition of the different contributions to permittivity, losses, and tunability in BaSrTiO3 thin films using the hyperbolic law

Thermo-mechanical simulation to optimize the integration of a BST stacked MIMIM capacitor

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