Impact of dispersion order on optical millimetre-wave generation based on series optical external modulators without an optical filter

Singh, M.; Raghuwanshi, S. K.

doi:10.5277/oa150208

Artykuł - szczegóły

Tytuł artykułu

Impact of dispersion order on optical millimetre-wave generation based on series optical external modulators without an optical filter

Autorzy

Singh M. , Raghuwanshi S. K.

Treść / Zawartość

Pełne teksty:

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Identyfikatory

DOI

10.5277/oa150208

Warianty tytułu

Języki publikacji

Abstrakty

The influence of higher order fiber dispersions (like chromatic dispersion and dispersion slope) on the optical millimeter-wave generation is studied. Optical sideband suppression ratio and radio frequency spurious suppression ratio are given and discussed. Moreover, the mathematical results of the proposed model are verified by experiments and numerical simulations.

Słowa kluczowe

fiber chromatic dispersion microwave photonics radio-over-fiber dual-drive Mach-Zehnder modulator

Wydawca

Oficyna Wydawnicza Politechniki Wrocławskiej

Czasopismo

Optica Applicata

Rocznik

2015

Tom

Vol. 45, nr 2

Strony

215--226

Opis fizyczny

Bibliogr. 26 poz., rys., tab.

Twórcy

autor

Singh M.

mandeepism@gmail.com

Photonics Research Laboratory (PRL), Department of Electronics and Communication Engineering, Indian Institute of Technology, Roorkee-247667, Uttarakhand, India

autor

Raghuwanshi S. K.

Photonics Research Laboratory (PRL), Department of Electronics Engineering, Indian School of Mines, Dhanbad, India

Bibliografia

[1] JIANXIN MA, YU J., CHONGXIU YU, XIANGJUN XIN, JUNYING ZENG, CHEN L., Fiber dispersion influence on transmission of the optical millimeter-waves generated using LN-MZM intensity modulation, Journal of Lightwave Technology 25(11), 2007, pp. 3244–3256.
[2] AL-SHAREEFI N.A., HASSAN S.I.S., MALEK M.F.B.A., NGAH R., ALJUNID S.A., FAYADH R.A., ADHAB J., RAHIM H.A., Development of a new approach for high-quality quadrupling frequency optical millimeter-wave signal generation without optical filter, Progress in Electromagnetics Research 134, 2013, pp. 189–208.
[3] ANANG K.A., RAPAJIC P.B., BELLO L., WU R., Sensitivity of cellular wireless network performance to system and propagation parameters at carrier frequencies greater than 2 GHz, Progress in Electromagnetics Research B 40, 2012, pp. 31–54.
[4] CHOUDHURY P.K., Transmission through twisted clad liquid crystal optical fibers, Progress in Electromagnetics Research 131, 2012, pp. 169–184.
[5] CAPMANY J., NOVAK D., Microwave photonics combines two worlds, Nature Photonics 1(6), 2007, pp. 319–330.
[6] ZI-HANG ZHU, SHANG-HONG ZHAO, ZHOU-SHI YAO, QING-GUI TAN, YONG-JUN LI, XING-CHUN CHU, XIANG WANG, GU-HAO ZHAO, Nonlinearity modelling of an on-board microwave photonics system based on Mach–Zehnder modulator, Optoelectronics Letters 8(6), 2012, pp. 441–444.
[7] JIANJUN YU, ZHENSHENG JIA, LILIN YI, YIKAI SU, GEE-KUNG CHANG, TING WANG, Optical millimeter--wave generation or up-conversion using external modulators, IEEE Photonics Technology Letters 18(1), 2006, pp. 265–267.
[8] JIANJUN YU, ZHENSHENG JIA, LEI XU, LIN CHEN, TING WANG, GEE-KUNG CHANG, DWDM optical millimeter-wave generation for radio-over-fiber using an optical phase modulator and an optical interleaver, IEEE Photonics Technology Letters 18(13), 2006, pp. 1418–1420.
[9] JIANJUN YU, ZHENSHENG JIA, TING WANG, GEE-KUNG CHANG, A novel radio-over-fiber configuration using optical phase modulator to generate an optical mm-wave and centralized lightwave for uplink connection, IEEE Photonics Technology Letters 19(3), 2007, pp. 140–142.
[10] JIANJUN YU, ZHENSHENG JIA, TING WANG, CHANG G.K., Centralized lightwave radio-over-fiber system with photonic frequency quadrupling for high-frequency millimeter-wave generation, IEEE Photonics Technology Letters 19(19), 2007, pp. 1499–1501.
[11] JIANJUN YU, GEE-KUNG CHANG, ZHENSHENG JIA, CHOWDHURY A., MING-FANG HUANG, HUNG-CHANG CHIEN, YU-TING HSUEH, WEI JIAN, CHENG LIU, ZE DONG, Cost-effective optical millimeter technologies and field demonstrations for very high throughput wireless-over-fiber access systems, Journal of Lightwave Technology 28(16), 2010, pp. 2376–2397.
[12] LEI SHANG, AIJUN WEN, BO LI, TONGGANG WANG, YANG CHEN, MING’AN LI, A filterless optical millimeter-wave generation based on frequency octupling, Optik – International Journal for Light and Electron Optics 123(13), 2012, pp. 1183–1186.
[13] RAGHUWANSHI S.K., MANDEEP SINGH, Effect of higher order dispersion terms on microwave generation due to single mode fiber, dispersion shifted fiber and non-zero dispersion shifted fiber on lithium niobate Mach–Zehnder modulator, International Journal of Electrical and Electronics Engineering Research 3(1), 2013, pp. 189–208.
[14] YANG CHEN, AIJUN WEN, LEI SHANG, Analysis of an optical mm-wave generation scheme with frequency octupling using two cascaded Mach–Zehnder modulators, Optics Communications 283(24), 2010, pp. 4933–4941.
[15] MANDEEP SINGH, RAGHUWANSHI S.K., Microwave generation analysis with higher order dispersion parameters in two cascaded Mach–Zehnder modulators, Optik – International Journal for Light and Electron Optics 125(2), 2014, pp. 761–771.
[16] PEIMING SHI, SONG YU, ZEKUN LI, JIEN SONG, JING SHEN, YAOJUN QIAO, WANYI GU, A novel frequency sextupling scheme for optical mm-wave generation utilizing an integrated dual-parallel Mach–Zehnder modulator, Optics Communications 283(19), 2010, pp. 3667–3672.
[17] XIANGLING LIU, ZENGJI LIU, JIANDONG LI, TAO SHANG, JIANGONG ZHAO, Generation of optical carrier suppression millimeter-wave signal using one dual-parallel MZM to overcome chromatic dispersion, Optics Communications 283(16), 2010, pp. 3129–3135.
[18] YANG CHEN, AIJUN WEN, XIAOJIE YIN, LEI SHANG, YONG WANG, Generation of frequency doubling mm-wave signal using a Mach–Zehnder modulator with three arms to overcome fiber chromatic dispersion, Optical Fiber Technology 18(1), 2012, pp. 1–6.
[19] JIAN ZHANG, HONGWEI CHEN, MINGHUA CHEN, TIANLIANG WANG, SHIZHONG XIE, A photonic microwave frequency quadrupler using two cascaded intensity modulators with repetitious optical carrier suppression, IEEE Photonics Technology Letters 19(14), 2007, pp. 1057–1059.
[20] MOHAMED M., XIUPU ZHANG, HRAIMEL B., KE WU, Frequency sixupler for millimeter-wave over fiber systems, Optics Express 16(14), 2008, pp. 10141–10151.
[21] YANG CHEN, AIJUN WEN, JINGJING GUO, LEI SHANG, YONG WANG, A novel optical mm-wave generation scheme based on three parallel Mach–Zehnder modulators, Optics Communications 284(5), 2011, pp. 1159–1169.
[22] MANDEEP SINGH, RAGHUWANSHI S.K., Impact of higher order dispersion on photonically assisted optical millimeter-wave generated using dual parallel electro-optic modulators, Current Applied Physics 14(12), 2014, pp. 1837–1844.
[23] MANDEEP SINGH, RAGHUWANSHI S.K., Effect of higher order dispersion parameters on optical millimeter-wave generation using three parallel external optical modulators, Journal of Applied Physics 117(2), 2015, article 023116.
[24] WANGZHE LI, JIANPING YAO, Investigation of photonically assisted microwave frequency multiplicationbased on external modulation, IEEE Transactions on Microwave Theory and Techniques 58(11), 2010, pp. 3259–3268.
[25] KEISER G., Optical Fiber Communications, McGraw-Hill, 2010.
[26] Characteristics of non zero dispersion shifted single mode optical fiber cable, ITU-T, Rec. G.655, 2009.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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