Highly sensitive electro-optic probe incorporating an ultra-high Q-factor LiNbO3 etalon

A highly sensitive electro-optic (EO) probe has been proposed and realized by tethering an ultra-high-quality (Q)-factor LiNbO3 etalon to a single-mode fiber operating at around a 1550-nm wavelength. For the adopted EO etalon, the electric-field-induced refractive index modification is deemed to shi...

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Veröffentlicht in:	Applied optics. Optical technology and biomedical optics 2018-10, Vol.57 (28), p.8343-8349
Hauptverfasser:	Lee, Woo-Bin, Baek, Seon-U, Lee, Sang-Shin
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Sprache:	eng
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container_title	Applied optics. Optical technology and biomedical optics
container_volume	57
creator	Lee, Woo-Bin Baek, Seon-U Lee, Sang-Shin
description	A highly sensitive electro-optic (EO) probe has been proposed and realized by tethering an ultra-high-quality (Q)-factor LiNbO3 etalon to a single-mode fiber operating at around a 1550-nm wavelength. For the adopted EO etalon, the electric-field-induced refractive index modification is deemed to shift its own spectral response. An electrical modulation signal is anticipated to be produced when a probe light beam with a fixed bias wavelength impinges upon the EO etalon. The EO etalon is particularly required to exhibit a remarkably steep spectral response and thus facilitate modulation efficiency. In aiming to scrutinize the performance in terms of sensitivity, two EO probes involving profoundly different Q-factors were prepared and applied to detect the electric field emitted from a microstrip device. It was confirmed that the sensitivity could be efficiently enhanced by as much as 28 dB by boosting the Q-factor 18 times when a probe light beam operating at =∼1550 nm was properly collimated and polarized. Accordingly, the minimum detectable signal was successfully diminished.
doi_str_mv	10.1364/AO.57.008343
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For the adopted EO etalon, the electric-field-induced refractive index modification is deemed to shift its own spectral response. An electrical modulation signal is anticipated to be produced when a probe light beam with a fixed bias wavelength impinges upon the EO etalon. The EO etalon is particularly required to exhibit a remarkably steep spectral response and thus facilitate modulation efficiency. In aiming to scrutinize the performance in terms of sensitivity, two EO probes involving profoundly different Q-factors were prepared and applied to detect the electric field emitted from a microstrip device. It was confirmed that the sensitivity could be efficiently enhanced by as much as 28 dB by boosting the Q-factor 18 times when a probe light beam operating at =∼1550 nm was properly collimated and polarized. 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Optical technology and biomedical optics</title><description>A highly sensitive electro-optic (EO) probe has been proposed and realized by tethering an ultra-high-quality (Q)-factor LiNbO3 etalon to a single-mode fiber operating at around a 1550-nm wavelength. For the adopted EO etalon, the electric-field-induced refractive index modification is deemed to shift its own spectral response. An electrical modulation signal is anticipated to be produced when a probe light beam with a fixed bias wavelength impinges upon the EO etalon. The EO etalon is particularly required to exhibit a remarkably steep spectral response and thus facilitate modulation efficiency. In aiming to scrutinize the performance in terms of sensitivity, two EO probes involving profoundly different Q-factors were prepared and applied to detect the electric field emitted from a microstrip device. It was confirmed that the sensitivity could be efficiently enhanced by as much as 28 dB by boosting the Q-factor 18 times when a probe light beam operating at =∼1550 nm was properly collimated and polarized. 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Optical technology and biomedical optics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lee, Woo-Bin</au><au>Baek, Seon-U</au><au>Lee, Sang-Shin</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Highly sensitive electro-optic probe incorporating an ultra-high Q-factor LiNbO3 etalon</atitle><jtitle>Applied optics. Optical technology and biomedical optics</jtitle><date>2018-10-01</date><risdate>2018</risdate><volume>57</volume><issue>28</issue><spage>8343</spage><epage>8349</epage><pages>8343-8349</pages><eissn>1539-4522</eissn><abstract>A highly sensitive electro-optic (EO) probe has been proposed and realized by tethering an ultra-high-quality (Q)-factor LiNbO3 etalon to a single-mode fiber operating at around a 1550-nm wavelength. For the adopted EO etalon, the electric-field-induced refractive index modification is deemed to shift its own spectral response. An electrical modulation signal is anticipated to be produced when a probe light beam with a fixed bias wavelength impinges upon the EO etalon. The EO etalon is particularly required to exhibit a remarkably steep spectral response and thus facilitate modulation efficiency. In aiming to scrutinize the performance in terms of sensitivity, two EO probes involving profoundly different Q-factors were prepared and applied to detect the electric field emitted from a microstrip device. It was confirmed that the sensitivity could be efficiently enhanced by as much as 28 dB by boosting the Q-factor 18 times when a probe light beam operating at =∼1550 nm was properly collimated and polarized. Accordingly, the minimum detectable signal was successfully diminished.</abstract><doi>10.1364/AO.57.008343</doi><tpages>7</tpages></addata></record>
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title	Highly sensitive electro-optic probe incorporating an ultra-high Q-factor LiNbO3 etalon
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