Your search keyword '"Dong, Jianji"' showing total 13 results

1. Chip-to-chip optical multimode communication with universal mode processors

Author

Wu, Bo, Zhang, Wenkai, Zhou, Hailong, Dong, Jianji, Huang, Dongmei, Wai, P. K. A., and Zhang, Xinliang

Subjects

FOS: Physical sciences, Physics - Applied Physics, Applied Physics (physics.app-ph), Physics - Optics, Optics (physics.optics)

Abstract

The increasing amount of data exchange requires higher-capacity optical communication links. Mode division multiplexing (MDM) is considered as a promising technology to support the higher data throughput. In an MDM system, the mode generator and sorter are the backbone. However, most of the current schemes lack the programmability and universality, which makes the MDM link susceptible to the mode crosstalk and environmental disturbances. In this paper, we propose an intelligent multimode optical communication link using universal mode processing (generation and sorting) chips. The mode processor consists of a programmable 4*4 Mach Zehnder interferometer (MZI) network and can be intelligently configured to generate or sort both quasi linearly polarized (LP) modes and orbital angular momentum (OAM) modes in any desired routing state. We experimentally establish a chip-to-chip MDM communication system. The mode basis can be freely switched between four LP modes and four OAM modes. We also demonstrate the multimode optical communication capability at a data rate of 25 Gbit/s. The proposed scheme shows significant advantages in terms of universality, intelligence, programmability and resistance to mode crosstalk, environmental disturbances and fabrication errors, demonstrating that the MZI-based reconfigurable mode processor chip has great potential in long-distance chip-to-chip multimode optical communication systems.

Published

2023

2. Thermo-optic phase shifter based on hydrogen-doped indium oxide microheater

Author

Tong, Weiyu, Yang, Erqi, Pang, Yu, Yang, Haobo, Qian, Xin, Yang, Ronggui, Hu, Bin, Dong, Jianji, and Zhang, Xinliang

Subjects

FOS: Physical sciences, Physics - Applied Physics, Applied Physics (physics.app-ph), Physics - Optics, Optics (physics.optics)

Abstract

Thermo-optic (TO) phase shifters are very fundamental units in large-scale active silicon photonic integrated circuits (PICs). However, due to the limitation of microheater materials with a trade-off between heating efficiency and absorption loss, designs reported so far typically suffer from slow response time, high power consumption, low yields, and so on. Here, we demonstrate an energy-efficient, fast-response, and low-loss TO phase shifter by introducing hydrogen-doped indium oxide (IHO) films as microheater, and the optimized electron concentration with enhanced mobility endows the IHO high conductivity as well as high near-infrared (NIR) transparency, which allow it to directly contact the silicon waveguide without any insulating layer for efficient tuning and fast response. The TO phase shifter achieves a sub-microsecond response time (970 ns/980 ns) with a {\pi} phase shift power consumption of 9.6 mW. And the insertion loss introduced by the IHO microheater is ~ 0.5 dB. The proposed IHO-based microheaters with compatible processing technology illustrate the great potential of such material in the application of large-scale silicon PICs., Comment: 10 pages, 4 figures, journal

Published

2023

3. Supplementary document for Cascaded nanobeam spectrometer with high resolution and scalability - 5787116.pdf

Author

zhang, jiahui, Cheng, Ziwei, Dong, Jianji, and Zhang, Xinliang

Abstract

Supplementary material

Published

2022

4. Chiral polarizer based on encircling EP

Author

Wei, Yanxian, Zhou, Hailong, Chen, Yuntian, Ding, Yunhong, Dong, Jianji, and Zhang, Xinliang

Subjects

High Energy Physics::Lattice, FOS: Physical sciences, Physics - Optics, Optics (physics.optics)

Abstract

Encircling an exceptional point (EP) in a parity-time (PT) symmetric system has shown great potential for chiral optical devices, such as chiral mode switching for symmetric and anti-symmetric modes. However, the chiral switching for polarization states has never been reported although chiral polarization manipulation has significant applications in imaging, sensing, and communication etc. Here inspired by the anti-PT symmetry, we demonstrate an on-chip chiral polarizer by constructing polarization-coupled anti-PT symmetric system for the first time. The transmission axes of the chiral polarizer are different for forward and backward propagation. A polarization extinction ratio of over 10 dB is achieved for both propagating directions. Moreover, a telecommunication experiment is performed to demonstrate the potential applications in polarization encoding signals. It provides a novel functionality for encircling-an-EP parametric evolution and offer a new approach for on-chip chiral polarization manipulation.

Published

2021

5. Fast-response silicon photonic microheater induced by parity-time symmetry breaking

Author

Wei, Yanxian, Cheng, Junwei, Wang, Yilun, Zhou, Hailong, Dong, Jianji, Huang, Dongmei, Li, Feng, Li, Ming, Wai, P. K. A., and Zhang, Xinliang

Subjects

FOS: Physical sciences, Physics - Applied Physics, Applied Physics (physics.app-ph), Physics - Optics, Optics (physics.optics)

Abstract

Thermo-optic microheater is indispensable in silicon photonic devices for smart and reconfigurable photonic networks. Much efforts have been made to improve the metallic microheater performance in the past decades. However, because of the metallic nature of light absorption, placing the metallic microheater very close to the waveguide for fast response is impractical and has not been done experimentally. Here, we experimentally demonstrate a metallic microheater placed very close to the waveguide based on parity-time (PT) symmetry breaking. The intrinsic high loss of metallic heater ensures the system will operate in the PT-symmetry-broken region, which guarantee the low loss of light in the silicon waveguide. Moreover, heating at a close range significantly reduces the response time. A fast response time of ~1 us is achieved without introducing extra loss. The insertion loss is only 0.1 dB for the long heater. The modulation bandwidth is 280 kHz, which is an order of magnitude improvement when compared with that of the mainstream thermo-optic phase shifters. To verify the capability of large-scale integration, a 1*8 phased array for beam steering is also demonstrated experimentally with the PT-symmetry-broken metallic heaters. Our work provides a novel design concept for low-loss fast-response optical switches with dissipative materials and offers a new approach to enhance the performance of thermo-optic phase shifters.

Published

2021

6. 光电智能计算研究进展与挑战

Author

成骏伟 Cheng Junwei, 江雪怡 Jiang Xueyi, 周海龙 Zhou Hailong, and 董建绩 Dong Jianji

Subjects

Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2022

7. Directional coupling and focusing surface plasmon polaritons controlled by arbitrary spin of light

Author

Zhou, Hailong, Qie, Jinran, Dong, Jianji, and Zhang, Xinliang

Subjects

Physics::Optics, FOS: Physical sciences, Physics - Optics, Optics (physics.optics)

Abstract

Surface plasmon polaritons have attracted varies of interests due to its special properties, especially in the polarization-controlled devices. Typically, the polarization-controlled devices include directional coupling, focusing lens and plasmonic vortex lens, and almost all of them are controlled by the input circularly polarized light or the linearly polarized light. We present a novel device that realize the functions of directional coupling and focusing with high polarization extinction ratio for arbitrary spin of input light. This device offers opportunities for polarization sensing, polarization splitting and polarization-multiplexed near-field images and surface plasmon holography in the future., Comment: First and second authors contributed equally to this work

Published

2018

8. 3585244.pdf

Author

Gao, Dingshan, Li, Shuyi, Zhou, Yangyang, Dong, Jianji, Zhang, Xinliang, Cassan, Eric, Hou, Jin, Yang, Chunyong, Chen, Shaoping, and Chen, Huanyang

Abstract

Supplement 1 for the article

Published

2018

9. Arbitrary spin-controlled directional coupling of surface plasmon polaritons

Author

Zhou, Hailong, Qie, Jinran, Dong, Jianji, and Zhang, Xinliang

Subjects

Physics::Optics, FOS: Physical sciences, Physics - Optics, Optics (physics.optics)

Abstract

Controlling the directionality of surface plasmon polaritons (SPPs) has been widely studied, while the direction of SPPs was always switched by orthogonal polarizations in the reported methods. Here, we present a scheme to control the directionality of SPPs by arbitrary spin polarizations. Extremely, the device can split two quite adjacent polarization components to two opposite directions. The versatility of the presented design scheme can offer opportunities for polarization sensing, polarization splitting and polarization-controlled plasmonic devices., Comment: First and second author contributed equally to this work

Published

2018

10. 3585244.pdf

Author

Gao, Dingshan, Li, Shuyi, Zhou, Yangyang, Dong, Jianji, Zhang, Xinliang, Cassan, Eric, Hou, Jin, Yang, Chunyong, Chen, Shaoping, and Chen, Huanyang

Abstract

Supplement 1 for the article

Published

2018

11. Orbital angular momentum complex spectrum analyzer for vortex light based on rotational Doppler Effect

Author

Zhou, Hailong, Fu, Dongzhi, Dong, Jianji, Zhang, Pei, Chen, Dongxu, Cai, Xinlun, Li, Fuli, and Zhang, Xinliang

Subjects

Physics::Space Physics, Physics::Optics, FOS: Physical sciences, Physics - Optics, Optics (physics.optics)

Abstract

The function to measure orbital angular momentum (OAM) distribution of vortex light is essential for OAM applications. Although there are lots of works to measure OAM modes, it is difficult to measure the power distribution of different OAM modes quantitatively and instantaneously, let alone measure the phase distribution among them. In this work, we demonstrate an OAM complex spectrum analyzer, which enables to measure the power and phase distribution of OAM modes simultaneously by employing rotational Doppler Effect. The original OAM mode distribution is mapped to electrical spectrum of beating signals with a photodetector. The power distribution and phase distribution of superimposed OAM beams are successfully retrieved by analyzing the electrical spectrum. We also extend the measurement to other spatial modes, such as linear polarization modes. These results represent a new landmark of spatial mode analysis and show great potentials in optical communication and OAM quantum state tomography., Comment: 17 pages, 8 figures

Published

2016

12. Experimental Study of Wavelength Conversion at Various Modulation Formats Based on Four-Wave Mixing in a Semiconductor Optical Amplifier

Author

黄德修 Huang Dexiu, 张新亮 Zhang Xinliang, and 董建绩 Dong Jianji

Subjects

Optical amplifier, Four-wave mixing, Optics, Materials science, Modulation, business.industry, Optoelectronics, Wavelength conversion, business, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2008

13. Analysis on rotational Doppler Effect based on modal expansion method

Author

Zhou, Hailong, Dong, Jianji, Zhang, Pei, and Zhang, Xinliang

Subjects

FOS: Physical sciences, Physics - Optics, Optics (physics.optics)

Abstract

We theoretically investigate the optical rotational Doppler Effect using modal expansion method. We find that the frequency shift content is only determined by the surface of spinning object and the reduced Doppler shift is linear to the change of mode index. The theoretical model makes us better understand the physical processes of rotational Doppler Effect. It can provide theoretical guidance for many related applications, such as detection of rotating bodies, detection of OAM and frequency shift., Comment: 8 pages, 4 figures

Published

2015