Enhanced c-axis KTN beam deflector by compensating compositional gradient effect with a thermal gradient

Enhanced c-axis KTN beam deflector by compensating compositional gradient effect with a thermal gradient

In this paper, we propose an enhanced c-axis potassium tantalate niobate (KTN) based electro-optic (EO) deflector by compensating the performance degradation using a thermal gradient. The naturally existing composition gradient in KTN crystals prevents KTN deflectors from working at its maximum func...

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Published in:OSA continuum Vol. 4; no. 2; p. 665
Main Authors: Lee, Yun Goo, Chen, Chang-Jiang, Shang, Annan, Liu, Ruijia, Chao, Ju-Hung, Yin, Shizhuo
Format: Journal Article
Language:English
Published: 15-02-2021
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Abstract In this paper, we propose an enhanced c-axis potassium tantalate niobate (KTN) based electro-optic (EO) deflector by compensating the performance degradation using a thermal gradient. The naturally existing composition gradient in KTN crystals prevents KTN deflectors from working at its maximum functionality at all locations along the propagation path. To overcome this fundamental limitation, we propose a KTN deflector with a temperature gradient to ensure all locations of KTN to work at the temperature having its highest permittivity. Our experimental data shows the KTN deflector with temperature gradient has near three times higher deflection angle than that of the case under uniform temperature.
AbstractList In this paper, we propose an enhanced c-axis potassium tantalate niobate (KTN) based electro-optic (EO) deflector by compensating the performance degradation using a thermal gradient. The naturally existing composition gradient in KTN crystals prevents KTN deflectors from working at its maximum functionality at all locations along the propagation path. To overcome this fundamental limitation, we propose a KTN deflector with a temperature gradient to ensure all locations of KTN to work at the temperature having its highest permittivity. Our experimental data shows the KTN deflector with temperature gradient has near three times higher deflection angle than that of the case under uniform temperature.
Author Lee, Yun Goo
Liu, Ruijia
Chao, Ju-Hung
Yin, Shizhuo
Chen, Chang-Jiang
Shang, Annan
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CitedBy_id crossref_primary_10_1016_j_molliq_2024_124904
crossref_primary_10_1364_OME_485178
crossref_primary_10_1364_OPTCON_447930
crossref_primary_10_3788_IRLA20230004
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