Photorefractive Effects in LiNbO3 and LiTaO3

Buse, K.; Imbrock, Jörg; Krätzig, E.; Peithmann, K.

doi:10.1007/0-387-34081-5_4

Cited by 23 publications

(17 citation statements)

References 164 publications

(208 reference statements)

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“…22 This bulk photovoltaic effect [23][24][25][26][27] is one of the most important features of doped LiNbO 3 , i.e., crystals with extrinsic defect centers, such as Fe Li . It is because it represents an important step within the cascade of charge-transport phenomena 28,29 that result in the photorefractive effect, [30][31][32][33] allowing for a variety of photorefractive phenomena in various photovoltaic ferroelectrics. 34 Due to the application of continuous-wave laser light, a phenomenological description of the photovoltaic effect served convincingly over the last decades.…”

Section: Free Electron Nb 4þmentioning

confidence: 99%

Optical nonlinearities of small polarons in lithium niobate

Imlau

Badorreck

Merschjann

2015

Applied Physics Reviews

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Section: Free Electron Nb 4þmentioning

confidence: 99%

Optical nonlinearities of small polarons in lithium niobate

Imlau

Badorreck

Merschjann

2015

Applied Physics Reviews

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“…For this particular experiment, the SHG up-conversion stages consist of AR coated, bulk magnesium-doped PPLN (MgO:PPLN) crystals (Covesion). Traditionally, undoped PPLN devices (bulk or waveguide structure) suffer greatly from photorefractive effect [Buse et al 2007,Kashin et al 2011 due to their intrinsic properties of large electro-optic coefficient, strong photo-voltaic effect, and strong space charge field. Contrarily to undoped PPLN devices, 5% of magnesium are added to lithium niobate in order to make the crystal more resistance against such effect, hence higher damage threshold.…”

Section: Towards the First Prototype Of Hom Experimentsmentioning

confidence: 99%

All-optical synchronization for quantum networking

Fedrici

Ngah

Alibart

et al. 2018

Quantum Technologies 2018

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This manuscript reports the development of fundamental resources for long distance quantum communication based on fibre telecom technology and non-linear optical waveguides. After a general introduction on quantum communication, the thesis is structured along three parts. The first part illustrates the development of two photonic polarization entanglement sources suitable for quantum networking. Both sources allow the generation of paired photons in the telecom C-band of wavelengths via spontaneous parametric down conversion (SPDC) in periodically poled lithium niobate waveguides (PPLN/W). The first source relies on type-II phase matching. In this configuration, two important elements, namely fiberbased walk-off compensation, and deterministic separation of the paired photons using lowloss, dense wavelength division multiplexing (DWDM) filters, are detailed. On the other picosecond pulsed telecom fiber laser, operating at 2.5 GHz repetition rate, acting as a master optical clock, enabling to accurately synchronize the emission of photon pairs in the telecom C-band of wavelengths at two remote locations. This innovative approach is applied for synchronizing two remote PLLN/W based sources operated at 2.5 GHz, and preliminary results on two-photon interference obtained with single photons coming from each source are shown and discussed.

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“…In last years, periodically-poled stoichiometric lithium tantalate (PPSLT) has been paid much attention due to its resistance to photorefractive damage and laser damage (Buse et al, 2007;Skvortsov et al, 1993) compared with other similar ferroelectric materials as congruent lithium tantalate (CLT) and congruent or stoichiometric lithium niobate (CLN or SLN, respectively). These properties should be specially taken into account in intracavity configurations, where powers confined in the nonlinear crystal can raise high values.…”

Section: :Licaf Lasersmentioning

confidence: 99%