The edge electric field of a pyroelectric and its applications

Sandomirsky, V.; Schlesinger, Y.; Levin, R.L.

doi:10.1063/1.2399306

Cited by 5 publications

(1 citation statement)

References 13 publications

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“…Photogalvanic accelerators may have the advantage in comparison with the pyroelectric accelerators due to a non-contact method of crystal charging and the possibility to use both steady-state and pulse modes of operation. An interesting possibility for the increasing efficiency of the crystal photogalvanic accelerator is to use the holographically recorded periodic electrostatic structures in the crystal surface to guide and channel the electron's and ion's beams [22,23]. Contrast self-enhancement of the photogalvanic gratings [25] can be used to increase efficiency of the photogalvanic crystal accelerator.…”

Section: Discussionmentioning

confidence: 99%

Combined optical and electrical effects in ferroelectric crystal for high laser intensities

Kukhtarev

Kukhtareva

Stargell

et al. 2009

Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications III

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In this study, we have derived equations for the pyroelectric and photogalvanic contribution to the electrical charging of the photosensitive ferroelectric crystal. Standard photorefractive equations are supplemented by the equation of state for the polarization density following the Devonshire-Ginsburg-Landau (DGL) approach. The photogalvanic voltage and current is considered for a wide intensity range, which includes the CW and the pulsed photo-excitation with high intensities when the impurity is fully ionized and when the traditional linear-recombination approach is not valid. The crystal electrostatic accelerators, based on charging of ferroelectric crystals by pyroelectric and photogalvanic effects, are discussed in relation to the generation of the self-focused electron beam, X-rays, and neutrons.

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Section: Discussionmentioning

confidence: 99%

Combined optical and electrical effects in ferroelectric crystal for high laser intensities

Kukhtarev

Kukhtareva

Stargell

et al. 2009

Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications III

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Pyroelectricity in Polycrystalline Ferroelectrics

Jiménez

2011

Multifunctional Polycrystalline Ferroelectric Materials

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Pyroelectric and photogalvanic crystal accelerators

Kukhtarev

Kukhtareva

Stargell

et al. 2009

Journal of Applied Physics

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In this study, we have derived equations for the pyroelectric and photogalvanic contribution to the electrical charging of the photosensitive ferroelectric crystal. Standard photorefractive equations are supplemented by the equation of state for the polarization density following the Devonshire–Ginsburg–Landau (DGL) approach. The photogalvanic voltage and current is considered for a wide intensity range, which includes the cw and the pulsed photoexcitation with high intensities when the impurity is fully ionized and when the traditional linear-recombination approach is not valid. The crystal electrostatic accelerators, based on charging of ferroelectric crystals by pyroelectric and photogalvanic effects, are discussed in relation to the generation of the self-focused electron beam, x rays, and neutrons.

show abstract

The edge electric field of a pyroelectric and its applications

Cited by 5 publications

References 13 publications

Combined optical and electrical effects in ferroelectric crystal for high laser intensities

Combined optical and electrical effects in ferroelectric crystal for high laser intensities

Pyroelectricity in Polycrystalline Ferroelectrics

Pyroelectric and photogalvanic crystal accelerators

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