Photochemical Stability of Organic Electro-Optic Polymer at 1310-nm Wavelength

IEICE Trans. Electron. Pub Date : 2023-01-01 DOI:10.1587/transele.2022oms0012
Y. Tominari, Toshiki Yamada, T. Kaji, A. Otomo
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引用次数: 1

Abstract

SUMMARY We investigated the photochemical stability of an electro-optic (EO) polymer under laser irradiation at 1310 nm to reveal photodegradation mechanisms. It was found that one-photon absorption excitation assisted with the thermal energy at the temperature is involved in the photodegradation process, in contrast to our previous studies at a wavelength of 1550 nm where two-photon absorption excitation is involved in the photodegradation process. Thus, both the excitation wavelength and the thermal energy strongly affect to the degradation mechanism. In any cases, the photodegradation of EO polymers is mainly related to the generation of exited singlet oxygen.
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有机电光聚合物在1310nm波长下的光化学稳定性
摘要:我们研究了一种电光聚合物在1310 nm激光照射下的光化学稳定性,以揭示其光降解机制。结果表明,在该温度下,双光子吸收激发参与了光降解过程,而在1550 nm波长下,双光子吸收激发参与了光降解过程。因此,激发波长和热能对降解机制都有很大的影响。在任何情况下,EO聚合物的光降解主要与产生出态单重态氧有关。
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IEICE Trans. Electron.
IEICE Trans. Electron.
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