All-optical electric field sensor in domain inverted LiNbO3 for harsh environment

D. Tulli, D. Janner, V. Pruneri
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引用次数: 1

Abstract

Optical high-voltage sensors have outstanding advantages in terms of isolation and immunity to electromagnetic interference. So far, several configurations have been proposed, mostly based on integrated Mach-Zehnder interferometers [1] or polarization/phase rotation in piezo-electric crystal [2]. While the first scheme requires initial electrical bias to compensate for the phase mismatch between the two arms, the second one requires interrogation or phase noise reduction systems that are expensive to implement. Near cut-off optical waveguide devices have been already reported in LiNbO3. In particular, the use of waveguides at cut-off was proposed for modulation in the field of optical communications [3,4] and sensing [5]. We present a novel integrated optical high voltage sensor based on a Z-cut LiNbO3 which operates without any metallic parts. The proposed device is sketched in Fig. 1 (left). An annealed proton exchange (APE) waveguide near cut-off is fabricated in Z-cut LiNbO3 and centered in a domain inverted region. The application of an external electric field parallel to the z axis of the device produces a refractive index change Δn± between positive and negative domains given by ne3·r33·E, where E is the intensity of the external electric field along the z-axis, ne=2.14 and r33=30.8 pm/V are the refractive index and the electro-optic coefficient along the z-axis, respectively. As a consequence the optical mode will broaden so that, after a sufficient propagation length, a loss is produced due to a mode-profile mismatch of the guided modes between active and passive regions.
面向恶劣环境的倒转LiNbO3全光电场传感器
光学高压传感器在隔离和抗电磁干扰方面具有突出的优势。到目前为止,已经提出了几种构型,主要基于集成马赫-曾德尔干涉仪[1]或压电晶体的极化/相位旋转[2]。虽然第一种方案需要初始电偏置来补偿两个臂之间的相位不匹配,但第二种方案需要询问或相位降噪系统,这些系统的实施成本很高。在LiNbO3中已经报道了近截止光波导器件。特别是,在光通信[3,4]和传感[5]领域,提出了在截止点使用波导进行调制。我们提出了一种基于z形切割LiNbO3的新型集成光学高压传感器,该传感器不需要任何金属部件。所提出的装置如图1(左)所示。在z -切割LiNbO3中制备了近截止的退火质子交换(APE)波导,该波导以畴反转区为中心。施加平行于器件z轴的外加电场,产生的正负畴之间的折射率变化Δn±由ne3·r33·E给出,其中E为沿z轴方向的外加电场强度,ne=2.14和r33=30.8 pm/V分别为沿z轴方向的折射率和电光系数。因此,光学模式将变宽,因此,在足够的传播长度之后,由于主动和被动区域之间的引导模式的模式轮廓不匹配而产生损耗。
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