光子辅助的宽带太赫兹通信技术

余建军; 周雯; 王心怡; 王凯辉

doi:10.11959/j.issn.1000-436x.2022012

您当前的位置：

首页 >

文章列表页 >

光子辅助的宽带太赫兹通信技术

专题：太赫兹通信关键技术 | 更新时间：2024-06-05

- 光子辅助的宽带太赫兹通信技术
- Photonics-aided broadband terahertz communication technology
- 通信学报 2022年43卷第1期页码：11-23
- 作者机构：
  
  复旦大学信息科学与工程学院，上海 200433
- 作者简介：
  
  [ "余建军（1968- ），男，湖南益阳人，博士，复旦大学教授，IEEE Fellow，OSA Fellow，主要研究方向为超宽带高速光纤通信、毫米波通信和太核兹通信" ]
  [ "周雯（1987- ），女，江苏扬州人，博士，复旦大学青年副研究员，主要研究方向为高速光纤通信、大容量光子太赫兹通信及数字信号处理算法" ]
  [ "王心怡（1997- ），女，江苏泰州人，复旦大学硕士生，主要研究方向为宽带通信技术" ]
  [ "王凯辉（1994- ），男，浙江平湖人，博士，复旦大学在站博士后，主要研究方向为高速光通信系统和光子毫米波/太赫兹波通信技术" ]
- 基金信息：
  
  国家自然科学基金资助项目(61935005);国家自然科学基金资助项目(91938202);国家自然科学基金国际（地区）合作与交流基金资助项目(61720106015);国家自然科学基金资助项目(61835002);国家自然科学基金资助项目(61805043);国家自然科学基金资助项目(62127802)
- DOI：10.11959/j.issn.1000-436x.2022012
  中图分类号： TN92
- 网络出版日期：2022-01，
  
  纸质出版日期：2022-01-25
- 稿件说明：
移动端阅览
余建军, 周雯, 王心怡, 等. 光子辅助的宽带太赫兹通信技术[J]. 通信学报, 2022,43(1):11-23.

Jianjun YU, Wen ZHOU, Xinyi WANG, et al. Photonics-aided broadband terahertz communication technology[J]. Journal on communications, 2022, 43(1): 11-23.
余建军, 周雯, 王心怡, 等. 光子辅助的宽带太赫兹通信技术[J]. 通信学报, 2022,43(1):11-23. DOI： 10.11959/j.issn.1000-436x.2022012.

Jianjun YU, Wen ZHOU, Xinyi WANG, et al. Photonics-aided broadband terahertz communication technology[J]. Journal on communications, 2022, 43(1): 11-23. DOI： 10.11959/j.issn.1000-436x.2022012.

摘要

首先，介绍了光子辅助的宽带太赫兹通信系统中的关键技术。然后，介绍了大容量和长距离太赫兹无线和有线通信技术方面的研究进展。采用这些关键技术，先后实现了太赫兹信号超过1 Tbit/s的无线传输，以及超过100 Gbit/s 太赫兹信号在无太赫兹放大器的情况下无线传输54.6 m。最后，介绍了采用空芯光纤进行有线传输超过100 Gbit/s的太赫兹信号。

Abstract

Firstly

the key technologies in photonics-aided broadband terahertz communication systems were introduced

and then the research progress in large-capacity and long-distance terahertz communication technologies was introduced.Using these key technologies

wireless transmission of THz signals had been successively achieved exceeding 1 Tbit/s

wireless transmission of THz signals exceeding 100 Gb/s for 54.6 meters without a THz amplifier.The use of air-core optical fiber to transmit terahertz signals exceeding 100 Gbit/s was also introduced.

关键词

Keywords

references

谢莎 , 李浩然 , 李玲香 , 等 . 太赫兹通信技术综述 [J ] . 通信学报 , 2020 , 41 ( 5 ): 168 - 186 .

XIE S , LI H R , LI L X , et al . Survey of terahertz communication technology [J ] . Journal on Communications , 2020 , 41 ( 5 ): 168 - 186 .

CHEN Z , MA X , ZHANG B , et al . A survey on terahertz communications [J ] . China Communications , 2019 , 16 ( 2 ): 1 - 35 .

姚建铨 , 迟楠 , 杨鹏飞 , 等 . 太赫兹通信技术的研究与展望 [J ] . 中国激光 , 2009 , 36 ( 9 ): 2213 - 2233 .

YAO J Q , CHI N , YANG P F , et al . Study and outlook of terahertz communication technology [J ] . Chinese Journal of Lasers , 2009 , 36 ( 9 ): 2213 - 2233 .

林长星 , 陆彬 , 吴秋宇 , 等 . 基于混频偏置合成的高速太赫兹无线通信系统 [J ] . 太赫兹科学与电子信息学报 , 2017 , 15 ( 1 ): 1 - 6 , 25 .

LIN C X , LU B , WU Q Y , et al . A high speed terahertz wireless com-munication system based on mixer and bias power combination [J ] . Journal of Terahertz Science and Electronic Information Technology , 2017 , 15 ( 1 ): 1 - 6 , 25 .

吴秋宇 , 林长星 , 陆彬 , 等 . 21 km,5 Gbps,0147 THz无线通信系统设计与实验 [J ] . 强激光与粒子束 , 2017 , 29 ( 6 ): 1 - 4 .

WU Q Y , LIN C X , LU B , et al . Design and tests of 21 km,5 Gbps,0.14 THz wireless communication system [J ] . High Power Laser and Particle Beams , 2017 , 29 ( 6 ): 1 - 4 .

邓贤进 . 太赫兹高速通信技术研究 [C ] // 中国工程物理研究院科技年报 . 北京:中国原子能出版社 , 2014 : 45 - 48 .

DENG X J , . Research on terahertz High Speed Communication Tech-nology [C ] // Science and Technology Annual Report of China Academy of Engineering Physics . Beijing:Atomic Energy Press , 2014 : 45 - 48 .

JIA S , ZHANG L , WANG S W , et al . PS-64QAM-OFDM THz photonic-wireless transmission with 2 × 300 Gbit/s line rate [C ] // Proceedings of Conference on Lasers and Electro-Optics . Washington:OSA Publishing , 2020 : 1 - 2 .

余建军 . 宽带太赫兹通信技术 [M ] . 北京 : 清华大学出版社 , 2018 .

YU J J . Broadband terahertz communication technology [M ] . Beijing : Tsinghua University Press , 2018 .

王成 , 刘杰 , 吴尚昀 , 等 . 0.14 THz 10 Gbps无线通信系统 [J ] . 信息与电子工程 , 2011 , 9 ( 3 ): 265 - 269 .

WANG C , LIU J , WU S Y , et al . 0.14 THz 10 Gbps wireless commu-nication system [J ] . Journal of Terahertz Science and Electronic Infor-mation Technology , 2011 , 9 ( 3 ): 265 - 269 .

WINZER P J . High-spectral-efficiency optical modulation formats [J ] . Journal of Lightwave Technology , 2012 , 30 ( 24 ): 3824 - 3835 .

ZHANG J W , LI X Y , DONG Z . Digital nonlinear compensation based on the modified logarithmic step size [J ] . Journal of Lightwave Technology , 2013 , 31 ( 22 ): 3546 - 3555 .

IP E , KAHN J M . Feedforward carrier recovery for coherent optical communications [J ] . Journal of Lightwave Technology , 2007 , 25 ( 9 ): 2675 - 2692 .

ZHOU X , YU J J . Multi-level,multi-dimensional coding for high-speed and high-spectral-efficiency optical transmission [J ] . Journal of Lightwave Technology , 2009 , 27 ( 16 ): 3641 - 3653 .

YU J J , ZHANG J W . Recent progress on high-speed optical transmission [J ] . Digital Communications and Networks , 2016 , 2 ( 2 ): 65 - 76 .

SEEDS A J , SHAMS H , FICE M J , et al . Terahertz photonics for wireless communications [J ] . Journal of Lightwave Technology , 2015 , 33 ( 3 ): 579 - 587 .

田遥岭 , 蒋均 , 黄昆 , 等 . 0.34 THz肖特基二极管高速OOK信号直接检波器 [J ] . 红外与激光工程 , 2017 , 46 ( 8 ): 0822001 .

TIAN Y L , JIANG J , HUANG K , et al . 0.34 THz high speed on-off keying(OOK) signal direct detector based on Schottky diode [J ] . Infra-red and Laser Engineering , 2017 , 46 ( 8 ): 0822001 .

HERMELO M F , SHIH P T B , STEEG M , et al . Spectral efficient 64-QAM-OFDM terahertz communication link [J ] . Optics Express , 2017 , 25 ( 16 ): 19360 - 19370 .

PANG X , JIA S , OZOLINS O , et al . Single channel 106 Gbit/s 16QAM wireless transmission in the 0.4 THz band [C ] // Proceedings of Optical Fiber Communication Conference . Washington:OSA Publishing , 2017 : 1 - 4 .

JIA S , YU X B , HU H , et al . 120 Gbit/s multi-channel THz wireless transmission and THz receiver performance analysis [J ] . IEEE Photonics Technology Letters , 2017 , 29 ( 3 ): 310 - 313 .

LIU K X , JIA S , WANG S W , et al . 100 Gbit/s THz photonic wireless transmission in the 350-GHz band with extended reach [J ] . IEEE Photonics Technology Letters , 2018 , 30 ( 11 ): 1064 - 1067 .

LI X Y , DONG Z , YU J J , et al . Fiber-wireless transmission system of 108 Gbit/s data over 80 km fiber and 2×2multiple-input multiple-output wireless links at 100 GHz W-band frequency [J ] . Optics Letters , 2012 , 37 ( 24 ): 5106 .

YU J J , LI X Y , CHI N . Faster than fiber:over 100-Gbit/s signal delivery in fiber wireless integration system [J ] . Optics Express , 2013 , 21 ( 19 ): 22885 .

LI X Y , XIAO J N , YU J J . Long-distance wireless mm-wave signal delivery at W-band [J ] . Journal of Lightwave Technology , 2016 , 34 ( 2 ): 661 - 668 .

LI X Y , YU J J , XIAO J N . Demonstration of ultra-capacity wireless signal delivery at W-band [J ] . Journal of Lightwave Technology , 2016 , 34 ( 1 ): 180 - 187 .

WANG C , YU J J , LI X Y , et al . Fiber-THz-fiber link for THz signal transmission [J ] . IEEE Photonics Journal , 2018 , 10 ( 2 ): 1 - 6 .

LI X Y , YU J J , WANG K H , et al . 120Gbit/s wireless terahertz-wave signal delivery by 375GHz-500GHz multi-carrier in a 2 × 2 MIMO system [C ] // Proceedings of 2018 Optical Fiber Communications Conference and Exposition (OFC) . Piscataway:IEEE Press , 2018 : 1 - 3 .

YU J J . Photonics-assisted millimeter-wave wireless communication [J ] . IEEE Journal of Quantum Electronics , 2017 , 53 ( 6 ): 1 - 17 .

CHEN M , XIAO X , YU J J , et al . Real-time generation and reception of OFDM signals for X-band RoF uplink with heterodyne detection [J ] . IEEE Photonics Technology Letters , 2017 , 29 ( 1 ): 51 - 54 .

LI C H , WU M F , LIN C H , et al . W-band OFDM RoF system with simple envelope detector down-conversion [C ] // Proceedings of Optical Fiber Communication Conference . Washington:OSA Publishing , 2015 :W4G.6.

ZIBAR D , SAMBARAJU R , CABALLERO A , et al . High-capacity wireless signal generation and demodulation in 75- to 110-GHz band employing all-optical OFDM [J ] . IEEE Photonics Technology Letters , 2011 , 23 ( 12 ): 810 - 812 .

MCKENNA T P , NANZER J A , CLARK T R . Experimental demonstration of photonic millimeter-wave system for high capacity point-to-point wireless communications [J ] . Journal of Lightwave Technology , 2014 , 32 ( 20 ): 3588 - 3594 .

DUCOURNAU G , SZRIFTGISER P , BECK A , et al . Ultrawide-bandwidth single-channel 0.4-THz wireless link combining broadband quasi-optic photomixer and coherent detection [J ] . IEEE Transactions on Terahertz Science and Technology , 2014 , 4 ( 3 ): 328 - 337 .

LI F , CAO Z Z , LI X Y , et al . Fiber-wireless transmission system of PDM-MIMO-OFDM at 100 GHz frequency [J ] . Journal of Lightwave Technology , 2013 , 31 ( 14 ): 2394 - 2399 .

GHAZISAEIDI A , FERNANDEZ D J R I , RIOS-MÜLLER R , et al . Advanced C L-band transoceanic transmission systems based on probabilistically shaped PDM-64QAM [J ] . Journal of Lightwave Technology , 2017 , 35 ( 7 ): 1291 - 1299 .

CHO J , CHEN X , CHANDRASEKHAR S , et al . Trans-Atlantic field trial using high spectral efficiency probabilistically shaped 64-QAM and single-carrier real-time 250-gbit/s 16-QAM [J ] . Journal of Lightwave Technology , 2018 , 36 ( 1 ): 103 - 113 .

LI X Y , DONG Z , YU J J , et al . Demonstration of ultra-high bit rate fiber wireless transmission system of 108-Gbit/s data over 80-km fiber and 2 × 2 MIMO wireless links at 100GHz W-band frequency [C ] // Proceedings of Optical Fiber Communication Conference/National Fiber Optic Engineers Conference 2013 . Washington:OSA Publishing , 2013 :JW2A.75.

LI X Y , YU J J , ZHAO L , et al . 1-Tbit/s millimeter-wave signal wireless delivery at D-band [J ] . Journal of Lightwave Technology , 2019 , 37 ( 1 ): 196 - 204 .

SHARIF V , PAKARZADEH H . Terahertz hollow-core optical fibers for efficient transmission of orbital angular momentum modes [J ] . Journal of Lightwave Technology , 2021 , 39 ( 13 ): 4462 - 4468 .

DING J J , WANG Y Y , ZHANG J , et al . Demonstration of 352-Gbit/s single line rate PS-4096QAM THz wired transmission over hollow-core fiber [C ] // Proceedings of 26th Optoelectronics and Communications Conference . Washington:OSA Publishing , 2021 :T5A.1.

YANG Y H , SHUTLER A , GRISCHKOWSKY D . Measurement of the transmission of the atmosphere from 0.2 to 2 THz [J ] . Optics Express , 2011 , 19 ( 9 ): 8830 - 8838 .

RAPPAPORT T S , XING Y C , KANHERE O , et al . Wireless communications and applications above 100 GHz:opportunities and challenges for 6G and beyond [J ] . IEEE Access , 2019 , 7 : 78729 - 78757 .

SONG H J , NAGATSUMA T . Present and future of terahertz communications [J ] . IEEE Transactions on Terahertz Science and Technology , 2011 , 1 ( 1 ): 256 - 263 .

LI W P , DING JJ , WANG YY , et al . 54/104 meters Terahertz wireless delivery of 124.8/44.8 Gbit/s Signals without Terahertz Amplifier [C ] // Asia Communications and Photonics Conference . Washington:OSA Publishing , 2021 :T4D.8.

浏览量

707

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

基于非完美信道信息的MIMO NOMA系统和速率最大化

基于叠加训练的非合作多用户/MIMO信道估计

基于SFBC结构的MIMO-OFDM系统峰均比抑制方法