Frequency 8-tupling millimeter-wave photonic generation based on two-step heterodyne technique

LI Jing; NING Ti-Gang; PEI Li; JIAN Wei; YOU Hai-Dong; CHEN Hong-Yao; ZHANG Chan

doi:10.3724/sp.j.1010.2015.03.016

[1] Wake D. Lasers and Electro-Optics Society, 2004［C］: The 17th Annual Meeting of the IEEE, 2004.

[2] Nguyen L V T, Hunter D B. A photonic technique for microwave frequency measurement ［J］. IEEE Photonics Technology Letters, 2006, 18(10): 1188-1190.

[3] Wake D, Webster M, Wimpenny G, et al. Microwave Photonics, 2004［C］. MWP04. 2004 IEEE International Topical Meeting on, 2004: 157-160.

[4] Capmany J, Novak D. Microwave photonics combines two worlds［J］. Nat Photon, 2007, 1(6): 319-330.

[5] Seeds A J, Williams K J. Microwave Photonics［J］. Journal of Lightwave Technol, Dec. 2006, 24(12): 4628-4641.

[6] James J, Gomes N, Shen P, et al. Millimeter-wave Wireless Local Area Network over Multimode Fiber System Demonstration［J］. IEEE Photonics Technology Letters. 22(9): 601-603.

[8] Chang-Soon C, Shoji Y, Ogawa H. Millimeter-Wave Fiber-Fed Wireless Access Systems Based on Dense Wavelength-Division-Multiplexing Networks［J］. IEEE Transactions on Microwave Theory and Techniques, 2008, 56(1): 232-241.

[9] Chow C W, Lin Y H. Convergent optical wired and wireless long-reach access network using high spectral-efficient modulation［J］. Opt Express, 2012, 20(8): 9243-9248.

[10] A.Ngoma. Design of a radio-over-fibre system for wireless lans, 2005［D］. Ph.D.dissertation: 31-37.

[13] Capmany J, Ortega B, Pastor D. A tutorial on microwave photonic filters［J］. Journal of Lightwave Technology, 2006, 24(1): 201-229.

[14] Chang-Soon C, Jun-Hyuk S, Woo-Young C, et al. 60-GHz bidirectional radio-on-fiber links based on InP-InGaAs HPT optoelectronic mixers［J］. IEEE Photonics Technology Letters, 2005, 17(12): 2721-2723.

[17] Rideout H R, Seregelyi J S, Paquet S, et al. Discriminator-aided optical phase lock loop incorporating a frequency down-conversion module［J］. IEEE Photonic Technology Letters, 2006, 18(21): 2344-2346.

[18] Yang Jing W, Hai Feng L, Novak D, et al. Millimeter-wave signal generation from a monolithic semiconductor laser via subharmonic optical injection［J］. IEEE Photonics Technology Letters, 2000, 12(8): 1058-1060.

[19] Pan S, Tang Z, Zhu D, et al. Injection-locked fiber laser for tunable millimeter-wave generation［J］. Opt Lett, 2011, 36(24): 4722-4724.

[20] Jianjun Y, Ming-Fang H, Zhensheng J, et al. A Novel Scheme to Generate Single-Sideband Millimeter-Wave Signals by Using Low-Frequency Local Oscillator Signal［J］. IEEE Photonics Technology Letters, 2008, 20(7): 478-480.

[22] Li J, Ning T, Pei L, et al. Millimeter-wave radio-over-fiber system based on two-step heterodyne technique［J］. Opt Lett, 2009, 34(20): 3136-3138.

[23] Li J, Ning T, Pei L, et al. 60GHz millimeter-wave generator based on a frequency-quadrupling feed-forward modulation technique［J］. Opt Lett, 2010, 35(21): 3619-3621.

[24] Shoji Y, Hamaguchi K, Ogawa H. Millimeter-wave remote self-heterodyne system for extremely stable and low-cost broad-band signal transmission［J］. Microwave Theory and Techniques, IEEE Transactions on, 2002, 50(6): 1458-1468.

[25] Chen J, Lin C-T, Shih P T, et al. Generation of optical millimeter-wave signals and vector formats using an integrated optical I/Q modulator［Invited］［J］. J Opt Netw, 2009, 8(2): 188-200.

[26] Y. Lau K, Park J. Ultra-high Frequency Linear Fiber Optic Systems［M］. Springer, 2008, 155-166.