Zhiqi Gu scite author profile

Ordering of ferroelectric polarization and its trajectory in response to an electric field are essential for the operation of non-volatile memories, transducers and electro-optic devices. However, for voltage control of capacitance and frequency agility in telecommunication devices, domain walls have long been thought to be a hindrance because they lead to high dielectric loss and hysteresis in the device response to an applied electric field. To avoid these effects, tunable dielectrics are often operated under piezoelectric resonance conditions, relying on operation well above the ferroelectric Curie temperature, where tunability is compromised. Therefore, there is an unavoidable trade-off between the requirements of high tunability and low loss in tunable dielectric devices, which leads to severe limitations on their figure of merit. Here we show that domain structure can in fact be exploited to obtain ultralow loss and exceptional frequency selectivity without piezoelectric resonance. We use intrinsically tunable materials with properties that are defined not only by their chemical composition, but also by the proximity and accessibility of thermodynamically predicted strain-induced, ferroelectric domain-wall variants. The resulting gigahertz microwave tunability and dielectric loss are better than those of the best film devices by one to two orders of magnitude and comparable to those of bulk single crystals. The measured quality factors exceed the theoretically predicted zero-field intrinsic limit owing to domain-wall fluctuations, rather than field-induced piezoelectric oscillations, which are usually associated with resonance. Resonant frequency tuning across the entire L, S and C microwave bands (1-8 gigahertz) is achieved in an individual device-a range about 100 times larger than that of the best intrinsically tunable material. These results point to a rich phase space of possible nanometre-scale domain structures that can be used to surmount current limitations, and demonstrate a promising strategy for obtaining ultrahigh frequency agility and low-loss microwave devices.

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Mesoscopic Free Path of Nonthermalized Photogenerated Carriers in a Ferroelectric Insulator

Imbrenda

Bennett-Jackson

et al. 2017

Phys. Rev. Lett.

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We show how finite-size scaling of bulk photovoltaic effect-generated electric field in epitaxial ferroelectric insulating BaTiO3(001) films and photo-Hall response involving the bulk photovoltaic current reveal large room-temperature mean free path of photogenerated non-thermalized electrons. Experimental determination of mesoscopic ballistic optically generated carrier transport opens a new paradigm for hot electron-based solar energy conversion, and for facile control of ballistic transport distinct from existing low-dimensional semiconductor interfaces, surfaces, layers or other structures.

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First-principles calculation of the second-harmonic-generation coefficients of borate crystals

Duan¹,

Gu³

et al. 1999

Phys. Rev. B

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Linear optical properties and multiphoton absorption of alkali halides calculated from first principles

Li¹,

Duan²,

Gu³

et al. 1998

Phys. Rev. B

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Zhiqi Gu

Power conversion efficiency exceeding the Shockley–Queisser limit in a ferroelectric insulator

Resonant domain-wall-enhanced tunable microwave ferroelectrics

Mesoscopic Free Path of Nonthermalized Photogenerated Carriers in a Ferroelectric Insulator

First-principles calculation of the second-harmonic-generation coefficients of borate crystals

Linear optical properties and multiphoton absorption of alkali halides calculated from first principles

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