Waveguide-Based 1.5 μm Optical Isolator Based on Magneto-Optic Effect in Ferromagnetic MnAs

Tomohiro Amemiya; Hiromasa Shimizu; Pham Nam Hai; Masafumi Yokoyama; Masaaki Tanaka; Yoshiaki Nakano

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Waveguide-Based 1.5 μm Optical Isolator Based on Magneto-Optic Effect in Ferromagnetic MnAs

机译：铁磁MnAs中基于磁光效应的基于波导的1.5μm光隔离器

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We developed a 1.5-μm-band, transverse-magnetic-mode waveguide isolator based on the nonreciprocal-loss phenomenon. The device consists of an optical waveguide with an InGaAs/InGaAlAs multiple-quantum-well amplifier and a ferromagnetic MnAs layer attached to the waveguide. The combination of the optical waveguide and the magnetized MnAs layer produces a magneto-optic effect called the nonreciprocal loss—a phenomenon where the propagation loss of light is larger in backward than in forward propagation. We present the guiding principle of the design of the structure of the device. A prototype device with a MBE-grown epitaxial MnAs layer showed a nonreciprocity of 9.8 dB/mm at a wavelength of 1.54 μm. Our device can be monolithically integrated with waveguide-based optical devices on an InP substrate.

机译：我们基于不可逆损耗现象开发了一种1.5μm带宽的横向磁模式波导隔离器。该器件由一个光波导组成，该光波导具有一个InGaAs / InGaAlAs多量子阱放大器和一个附着在波导上的铁磁MnAs层。光波导和磁化的MnAs层的组合会产生一种称为不可逆损耗的磁光效应，这种现象是光的传播损耗在向后传播中比向前传播大。我们介绍了设备结构设计的指导原则。具有MBE生长的外延MnAs层的原型设备在1.54μm的波长下显示出9.8 dB / mm的不可逆性。我们的设备可以与基于InP衬底上的基于波导的光学设备单片集成。

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来源
《Japanese Journal of Applied Physics. Part 1, Regular Papers, Brief Communications & Review Papers》 |2007年第1期|p.205-210|共6页
作者
Tomohiro Amemiya; Hiromasa Shimizu; Pham Nam Hai; Masafumi Yokoyama; Masaaki Tanaka; Yoshiaki Nakano;
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作者单位

Research Center for Advanced Science and Technology, 4-6-1 Komaba, Meguro-ku, Tokyo 153-8904, Japan;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
waveguide optical isolator; magneto-optic effect; nonreciprocal loss; semiconductor optical amplifier; ferromagnetic; MnAs; photonic integrated circuit;

机译：波导光隔离器;磁光效应;不可逆损耗;半导体光放大器;铁磁;MnAs;光子集成电路;

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专利

1. Semiconductor waveguide optical isolator based on nonreciprocal loss induced by ferromagnetic MnAs [J] . T. Amemiya, H. Shimizu, Y. Nakano, Applied Physics Letters . 2006,第2期

机译：基于铁磁MnAs引起的不可逆损耗的半导体波导光隔离器
2. Characterization of Transverse Magneto-optic Kerr Effect in Ferromagnetic Metals for Semiconductor Optical Isolators [J] . Hiromasa Shimizu, Saori Umetsu, Terunori Kaihara Japanese journal of applied physics . 2013,第2期

机译：半导体光学隔离器铁磁性金属中的横向磁光Kerr效应的表征
3. Optical waveguide isolator based on nonreciprocal loss/gain of amplifier covered by ferromagnetic layer [J] . Zaets W., Ando K. IEEE Photonics Technology Letters . 1999,第8期

机译：基于铁磁层覆盖的放大器的不可逆损耗/增益的光波导隔离器
4. TM mode optical waveguide isolator with 8.8 dB/mm nonreciprocal propagation induced by ferromagnetic MnAs [C] . T. Amemiya, H. Shimizu, Y. Nakano, Optical Fiber Communication Conference . 2006

机译：TM模式光波导隔离器，具有8.8dB / mm的铁磁性MNA诱导的非透视传播
5. Studies of Ferromagnetic MnAs/GaAs Heterostructures and MnAs/InAs Spin LEDs. [D] . Kwon, Jaesuk. 2013

机译：铁磁MnAs / GaAs异质结构和MnAs / InAs自旋LED的研究。
6. An Optical Planar Waveguide-Based Immunosensors for Determination of [O] . Alexei Nabok, Ali Madlool Al-Jawdah, Borbála Gémes, 2021

机译：基于光学平面波导的免疫传感器用于测定
7. Single Mode Operation of 1.5-micro;m Waveguide Optical Isolators Based on the Nonreciprocal-loss Phenomenon [O] . T. Amemiya, Y. Nakano 2010

机译：基于非透视损失现象的1.5-μm波导光隔离器的单模操作
8. The Optical Properties of MnAs and MnAs(0.85)P(0.15). [R] . Barner, K., Braunstein, R., Chock, E. 1977

机译：mnas和mnas的光学性质（0.85）p（0.15）。

Waveguide-Based 1.5 μm Optical Isolator Based on Magneto-Optic Effect in Ferromagnetic MnAs

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