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[135] M. Yoshida and M. Nakazawa, “GAWBS Noise in Multicore Fibers,” OECC 2022, invited talk, Tu2C-1. [136] M. Nakazawa, “GAWBS Noise in Digital Coherent Transmission,” ECOC 2022, invited talk, We1C.1. |
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[134]M. Nakazawa, “Challenges in Realizing the Exabit Optical Communication Infrastructure using 3 “Multi” Technology,” 2020 IEEE Eighth International Conference on Communications and Electronics (ICCE 2020), Plenary talk, January (2021). |
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[131] K. Kasai, M. Nakazawa, M. Yoshida, K. Iwatsuki, and T. Hirooka, “Digital Coherent Optical Access Technologies for Beyond 5G Network,” Invited talk, 2020 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT), TH4A.2, September (2020). [132] M. Nakazawa, “Odyssey on Ultrahigh-Speed Optical Communication Over 30 Years,” OECC 2020, plenary talk, October (2020). [133] M. Nakazawa, “Advanced Fiber Laser Technology for Achieving Extremes of Ultrahigh-speed Optical Communication,” OECC 2020, invited talk, Special Symposium: The 60th Laser Anniversary Symposium, October (2020). |
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[130] M. Nakazawa, “Recent progress on advanced QAM transmission and its application to quantum stream cipher and mobile fronthaul,” ISUPT 2019 (invited talk), MI2, June (2019). |
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[128] K. Kasai, M. Yoshida, T. Hirooka, and M. Nakazawa, “Injection-locked Homodyne Detection for Higher-order QAM Transmission,” OFC 2018, Invited talk, M4G.1, March (2018). [129] M. Nakazawa, M. Yoshida, and T. Hirano, “Secure Transmission using QAM Quantum Noise Stream Cipher with Continuous Variable QKD,” OFC 2018, Invited talk, Th3E.2 March (2018). |
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[120] M. Nakazawa, “Mode-locked lasers and their spectral manipulation for ultra-high speed pulse transmission,” OFC 2017 Workshop, March 2017. [121] M. Yoshida, K. Kasai, T. Hirooka, and M. Nakazawa, "Ultramulti-level transmission in multi-core fiber," EXAT 2017, Invited talk, F2.2, June 2017. [122] M. Nakazawa, “Progress on 3M Communication Systems,” ISUPT 2017, Invited talk, July 2017. [123] T. Hirooka, “PMD issues in Nyquist transmission,” ISUPT 2017, Invited talk, July 2017. [124] M. Nakazawa, “Invention Of LD-pumped EDFA And Their Applications From Soliton To Coherent Nyquist Pulse Transmission, CLEO-PR 2017, Invited talk, 1-3F-2, August 2017. [125] M. Nakazawa, “Recent Progress on Ultra-High Capacity Optical Transmission using Multi-Level, Multi-Core, and Multi-Mode Techniques,” ICO-24, Invited talk, Tu2E-01, August 2017. [126] M. Yoshida, “Recent progress in multi-level modulation,” Special ECOC 2017 Symposium, Invited talk, September 2017. [127] M. Nakazawa, "The EDFA odyssey from optical soliton to coherent Nyquist pulse," ISPOC 2017, Special invited talk, October 2017. |
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[116] T. Hirooka, M. Yoshida, K. Kasai, and M. Nakazawa, “Optical and wireless-integrated next-generation access network based on coherent technologies,” Photonics West 2016, Invited talk, 9772-2, February 2016. [117] M. Nakazawa, “ “Multi” is everywhere,” CLEO 2016, plenary talk. [118] K. Kasai, M. Yoshida, T. Hirooka, and M. Nakazawa, “Injection-locked Homodyne Detection System for Higher-order QAM Digital Coherent Transmission,” ECOC 2016, invited talk, M1.C.3, September 2016. [119] M. Nakazawa, "The EDFA odyssey," Symposium on Glass Science and Technologies, Plenary talk, November 2016. |
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[109] T. Hirooka, M. Yoshida, K. Kasai, and M. Nakazawa, “Multi-core Fibers and Systems for Space-division Multiplexing,” Photonics North 2015, Invited talk, 7.60, June 2015. [110] M. Nakazawa, “Ultrafast Spectrally-Efficient TDM Multiplexing/Demultiplexing Schemes Using Orthogonality in Coherent Optical Nyquist Pulses,” SPPCom 2015, Invited talk, SpM3E.1, June 2015. [111] M. Nakazawa, “Distributed mode-coupling measurements in MCF and FMF using a synchronous multi-channel OTDR,” ISUPT/EXAT 2015, Invited talk, T1.2, July 2015. [112] T. Hirooka, “Generation of optical Nyquist pulses and their applications to high speed/high spectral efficiency transmission,” ISUPT/EXAT 2015, Invited talk, M2.1, July 2015. [113] K. Kasai, D. O. Otuya, K. Harako, T. Hirooka and M. Nakazawa, “High-Speed, High Spectrally Efficient 64 QAMOrthogonal TDM Coherent Nyquist Pulse Transmission,” IEEE Summer Topicals 2015, Invited talk, MF1.3, July 2015. [114] M. Nakazawa, “QAM Quantum Noise Stream Cipher Transmission with Extremely High Security,” ECOC 2015, Invited talk, Th.2.5.1. [115] M. Nakazawa, "Mode coupling distribution measurement along few-mode fibers using OTDR techniques," ECOC 2015, Workshop |
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[105] M. Nakazawa, "gOrthogonalh TDM Nyquist Pulse Transmission and the Nyquist Laser," 4th RIEC-RLE Meeting on Collaboration in Photonics, July, 2014. [106] M. Nakazawa, gUltrahigh spectral efficiency systems - pushing the limits of multi-level modulation, multi-core fiber, and multi-mode control,h OECC 2014 (tutorial), WE7G-1. [107] M. Nakazawa, "High QAM transmission technologies for high spectral efficiency," OECC 2014 Workshop, July (2014). [108] M. Nakazawa, "Exabit Optical Communication Infrastructure Using 3M Scheme," ACP 2014, Plenary Talk, November (2014). |
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[97] M. Nakazawa, "Challenges to Ultrahigh Capacity/Spectral Efficiency Optical Transmission" 2nd RIEC-RLE Meeting on Research Collaboration in Photonics, Jan (2013). [98] M. Nakazawa, "Multicore Fiber Crosstalk Measurement using OTDR" OFC 2013 Workshop, March (2013). [99] T. Hirooka and M. Nakazawa, g"Orthogonal TDM Using Optical Nyquist Pulses,h Signal Processing in Photonic Communications (SPPCom 2013), Invited talk, SPM1D.3. [100] M. Nakazawa, M. Yoshida, K. Kasai, and T. Hirooka, "Ultramulti-level QAM and Nyquist pulse transmission," Post ECOC Workshop 2013. [101] M. Nakazawa, M. Yoshida, K. Kasai, and T. Hirooka, "QAM Transmission and its Application to Quantum Cryptography," 3rd RLE-RIEC Meeting on Collaboration in Photonics, 2013. [102] M. Nakazawa, "Ultrahigh]speed Nyquist Pulse Transmission and 3M (Multi) Technology," ISUPT 2013. [103] M. Nakazawa, "Exa-bit optical communication exploring by 3M scheme," 18th Microoptics Conference (MOCf13), Plenary Talk. [104] M. Nakazawa, M. Yoshida, and T. Hirooka, gNondestructive measurement of mode-coupling along a multi-core fiber using a synchronous multi-channel OTDR,h International Symposium on Extremely Advanced Transmission Technology (EXAT 2013), pp. 60-63 (2013). |
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[95] M. Nakazawa, "Nondestructive Measurement of Mode Couplings along a Multi-Core Fiber Using a Multi-Channel OTDR" ECOC 2012 Workshop, Sep. (2012). [96] T. Hirooka and M. Nakazawa, "Challenge of ultrafast transmissions for future" Post-ECOC Workshop 2012, Sep (2012). |
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[90] M. Nakazawa, "Ultrafast and high-spectral-density optical communications systems," Conference on Lasers and Electro-Optics (CLEO 2011), Invited talk, CThGG3, May (2011). [91] M. Nakazawa, ""Multi" is everywhere," Korea-Japan Workshop on Beyond 100G, Plenary Talk, June (2011). [92] T. Hirooka, K. Kasai, and M. Nakazawa, "Recent Progress on Ultra-high Speed and Multi Level Coherent Transmission," Korea-Japan Workshop on Beyond 100G, Invited Talk, June (2011). [93] M. Nakazawa, ""Multi" is Everywhere," The 5th International Symposium on Ultrafast Photonic Technolgies, ISUPT 2011, September (2011). [94] M. Nakazawa, " "Multi" is everywhere," Chitose International Forum on Photonics Science & Technology, Plenary Talk, Oct. (2011). |
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[85] M. Nakazawa, "Device requirements for next generation optical transmission technology," Tutorial, ECIO 2010, FrC1, April (2010). [86] M. Nakazawa, "Hardware Paradigm Shifts in the Optical Communication Infrastructure with Three "M Technologies," Opto Electronics and Communications Conference (OECC 2010), Plenary Talk, July (2010). [87] M. Nakazawa, "Giant Leaps in Optical Communication Technologies Towards 2030 and Beyond," European Conference on Optical Communication (ECOC 2010), Plenary Talk, September (2010). [88] M. Nakazawa, "Ultrahigh-speed coherent RZ pulse transmission with OTDM technology," International Symposium on Ultra-high Capacity Optical Communication and Related Optical Signal Processing and Devices, Invited talk, September (2010). [89] T. Hirooka and M. Nakazawa, "Recent progress on ultra-high speed and multi level coherent transmission," Photonics 2010, Invited talk, M2B3, December (2010). |
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[83] M. Nakazawa, "Optical quadrature amplitude modulation (QAM) with coherent detection up to 128 states," Optical Fiber Communication Conference (OFC 2009), Invited paper, OThG1, March (2009). [84] M. Nakazawa, "Recent progress on ultrafast/ultrashort/frequency-stabilized erbium-doped fiber lasers and their applications," International Conference on Materials for Advanced Technologies (ICMAT 2009), Invited paper, P-S1.3-4, June (2009). |
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[78] M. Nakazawa, "1.5 ƒÊm femtsecond fiber laser with CNT-doped polymer saturable absorber," The 8th International Mini-Symposium on Advanced Organic Photonics (ISAOP-8), Invited talk, I-11, February (2008). [79] M. Nakazawa, "Optical communication going ahead of wireless communication in terms of spectral efficiency," Workshop on High Spectral Density Optical Communication for New Generation Network, Invited talk, June (2008). [80] M. Nakazawa, "Novel modulation format and high spectral efficiency technology for coherent optical communication systems," IEEE/LEOS Summer Topicals 2008, Invited paper, TuC2.1, July (2008). [81] M. Nakazawa, "Challenges to FDM-QAM coherent transmission with ultrahigh spectral efficiency," European Conference on Optical Communication (ECOC 2008), Invited paper, Tu.1.E.1, September (2008). [82] M. Nakazawa, "Toward the Shannon limit optical communication," OSA Annual Meeting, Frontiers in Optics 2008, Invited paper, FTuH3, October (2008). |
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[68] M. Yoshida, K. Kasai, J. Hongo, and M. Nakazawa, "A C2H2 frequency-stabilized erbium-doped fiber laser and its application to coherent communication," SPIE Photonics West 2007, 6453-85, Invited paper, January (2007). [69] M. Nakazawa, "Advanced fiber laser technology for microwave photonics," Asia-Pacific Microwave Photonics Conference (AP-MWP 2007), Plenary Talk, April (2007). [70] M. Nakazawa, "A new Cs optical atomic clock using ultrastable fiber laser and optical comb delivery through optical network," NMIJ-BIPM Joint Workshop, Invited talk, May (2007). [71] M. Nakazawa, "Next generation ultrafast telecommunications technologies," CLEO Europe 2007, Invited paper, TF1-3TUE, June (2007). [72] M. Nakazawa, "Advanced optical fiber and fiber device technologies for ultrahigh-speed optical transmission," Optoelectronics and Communications Conference (OECC2007), Tutotiral, 11C2-1, July (2007). [73] T. Hirooka and M. Nakazawa, "Ultrahigh-speed signal transmission / processing technologies," Optoelectronics and Communications Conference (OECC2007), Invited paper, 10B2-1, July (2007). [74] M. Nakazawa, "QAM based coherent transmission technologies using DSP," IEEE/LEOS Summer Topicals 2007, Invited paper, TuA4.1, July (2007). [75] M. Nakazawa and T. Hirooka, "Terabit OTDM transmission-Key challenges," IEEE/LEOS Summer Topicals 2007, Invited paper, ME3.3, July (2007). [76] M. Nakazawa, "New frontiers in optical communication: ultrahigh-speed transmission and coherent transmission," The 3rd International Symposium on Ultrafast Photonic Technolgies, Invited paper, I-1, August (2007). [77] M. Nakazawa, "Advanced optical fiber device technology for ultrahigh-speed transmission," 5th Workshop on Fibers and Optical Passive Components (WFOPC2007), Plenary Talk, December (2007). |
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[66] M. Nakazawa, "Regeneratively mode-locked laser as an opto-electronic microwave oscillator and its application to optical metrology," Asia-Pacific Microwave Photonics Conference (AP-MWP 2006), K-1, Invited paper, Kobe, Japan, April 24-26 (2006). [67] M. Nakazawa, "Ultrahigh-speed fiber laser and its application to optical metrology," Conference on Lasers and Electro-Optics (CLEO 2006), CTuV4, Invited paper, May 21-26 (2006). |
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[63] M. Nakazawa, "Ultrastable mode-locked fiber lasers and their application to optical comb delivery through optical fiber networks," NMIJ-BIPM Workshop on the Impact of Information Technology in Metrology, Invited paper, WS-06, May (2005). [64] T. Hirooka and M. Nakazawa, "Ultrahigh-speed distortion-free transmission using all-optical time-domain Fourier transformation," International Conference on Quantum Electronics and the Pacific Rim Conference on Lasers and Electro-Optics (IQEC/CLEO-PR 2005), Tokyo, Japan, Invited paper, CFJ3-4-INV, July (2005). [65] M. Nakazawa, "Future of ultrahigh-speed optical communication," 2nd International Symposium on Ultrafast Photonic Technologies, Invited paper, Session 3, August (2005). |
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| [62] M. Nakazawa, "Ultrahigh speed optical transmission using femtosecond pulses and emerging new technology," Europe-U.S.-Japan Symposium on Ultrafast Photonic Technology, Chiba, Japan (2003). | |||
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| [59] M. Nakazawa, "Ultrafast optical TDM transmission
with the use of femtosecond pulses," Nonlinear Optics 2002, Invited
paper, TuA2, Hawaii, July 29-August 2 (2002).
[60] M. Nakazawa, "Ultrafast optical TDM transmission with the use of novel nonlinear optical fiber devices," Nonlinear Guided Waves and Their Applications 2002, Invited paper, NLTuC1, Stresa, Italy, September 1-4 (2002). [61] M. Nakazawa, "Recent progress on photonic crystal fibers," 3rd Chitose International Forum on Photonics Science & Technology, Invited paper, IV-5, Chitose, Japan, October 6-8 (2002). |
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[55] M. Nakazawa, "Single-channel 1.28 terabit/s OTDM transmission using a femtosecond pulse train," FST 2001, Invited paper, FA-1, Tsukuba, Japan, June 28-29 (2001). [56] M. Nakazawa, T. Yamamoto, and K. Tamura, "Ultrahigh speed OTDM transmission using femtosecond Pulses," CLEO/Pacific Rim 2001, Invited paper, TuJ4-3, Chiba, Japan, July 15-19 (2001). [57] M. Nakazawa and K. Suzuki, "A cesium optical atomic clock using a low phase noise regeneratively mode-locked fiber laser," Asia Pacific RASC 2001, Invited paper, A3-1-01, Tokyo, Japan, August 1-4 (2001). [58] M. Nakazawa, "1 Tb/s OTDM technology," ECOC 2001, Invited paper, Amsterdam, September 30 - October 4 (2001). |
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| [50] M. Nakazawa, "Large capacity soliton transmission using optical TDM technology," OECC 2000, Invited paper, 13A2-1, Chiba, Japan, July 10-14 (2000). [51] M. Nakazawa, "Large capacity soliton transmission using optical TDM technology," OECC 2000, Invited paper, 13A2-1, Chiba, Japan, July 10-14 (2000). [52] A. Sahara, H. Kubota, and M. Nakazawa, "The tolerance of the strength of dispersion map in the dispersion managed soliton system with the synchronous modulation", ROSC 2000, 11-01, Hakone, Japan, October 10-11 (2000). [53] K. Suzuki, H. Kubota, and M. Nakazawa, "640 Gb/s (40 Gb/s x 16 channel)-1,000 km dense WDM dispersion-managed soliton transmission," ROSC 2000, 11-03, Hakone, Japan, October 10-11 (2000). [54] M. Nakazawa, T. Yamamoto, and K. R. Tamura, "Toward a Terabit/sec single-channel OTDM transmission," MWE 2000, Invited talk, WS10-5, Yokohama, Japan, December 12-14 (2000). |
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| [44] M. Nakazawa," Toward terabit/s single-channel transmission,"
OFC'99, FI1, San Diego, February 21-26(1999).
[45] M. Nakazawa, "Ultrahigh speed soliton and non-soliton technologies" UEO'99 (Ultrafast Electronics and Optelectronics), UThA1, Aspen, Colorado, April 12-16 (1999). [46] M. Nakazawa, "Handing noise in soliton systems for ultrahigh speed transmission over unlimited distances" OAA'99, WB4, Nara, Japan, June 6-11 (1999). [47] H. Kubota and M. Nakazawa, "Recent progress in soliton communication technology", NOLTA'99 (International Symposium on Nonlinear Theory and its Applications), No. 1-B-1, Hawaii, November 28-December 2(1999). [48] M. Nakazawa, H. Kubota, K. Suzuki, E. Yamada, and A. Sahara, "80 Gbit/s multi-channel soliton transmission over transoceanic distances", ROSC'99, 9-02, Kyoto, November 9-12 (1999). [49] H. Kubota, K. Tamura, and M. Nakazawa" Handling noise in supercontinuum generation for WDM application" ROSC '99, 12-06, Kyoto, November 9-12 (1999). |
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| [39] M. Nakazawa,"@Ultrafast fiber lasers and their
applications to optical communication," International Workshop
on Current Topics of Laser Technology, Kobe, Japan, pp. 17-18, March
(1998).
[40] K. Tamura, E. Yoshida, M. Nakazawa, "Mode-locked fiber lasers for optical communications," OECCÕ98, Makuhari, Japan, 16C1-1, July (1998). [41] M. Nakazawa,"@Ultrafast fiber lasers and their applications to optical communication," International Workshop on Current Topics of Laser Technology, Kobe, Japan, pp. 17-18, March(1998). [42] K. Tamura, E. Yoshida, M. Nakazawa,"@Mode-locked fiber lasers for optical communications," OECCÕ98, Makuhari, Japan, 16C1-1, July(1998). [43] M. Nakazawa, A. Sahara, H. Kubota, and K. Suzuki," Ultrahigh speed soliton transmission beyond polarization mode dispersion using in-line synchronous modulation," International workshop on soliton, ROSC'98, Kyoto, November 10-11 (1998). |
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| [35] M. Nakazawa, " Dispersion-allocated soliton technology
and the stretched-pulse mode-locked fiber laser," OFC'97 (Conference
on Optical Fiber Communciation), Dallas, February 17 (1997).
[36] M. Nakazawa,"@Optical soliton and nonlinear transmission systems," OECC'97 (Opto-Electronics and Communication Conference'97), 9A3-1, Seoul, Korea, July (1997). [37] M. Nakazawa, H. Kubota, K. Suzuki, E. Yamada, and A. Sahara,"@Superb characteristics of Dispersion-allocated soliton transmission in TDM and WDM systems," International l Soliton symposium on optical soliton, Kyoto, Japan, pp. 197-224, November (1997). [38] H. Kubota and M. Nakazawa,"@Advantages of dispersion-allocated soliton transmission and its application to conventional 1.3 mm single-mode fiber," International Symposium NOLTAÕ98, M3F, Hawaii, U. S. A., December (1997). |
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| [30] T. Yamamoto and M. Nakazawa," Optical demultiplexing
and routing of 2.5 Gbit/sx4 TDM signal by using four-wave mixing and
a novel wavelength router with optical circulator and fiber gratings,"
Conf. On Optical Soliton Communication, Tokyo, Japan, June (1996).
[31] M. Nakazawa, H. Kubota, and A. Sahara," Dispersion-allocated soliton transmission," 2nd International Workshop for Soliton Communication, Hakone, Japan, August 26 (1996). [32] M. Nakazawa, K. Suzuki, H. Kubota, A. Sahara, and E. Yamada," 60 Gbit/s WDM soliton transmission over 10,000 km using in-line synchronous modulation and optical filtering," ROSC '96 (Research Organization on Soliton Communication), Kyoto, November 26 (1996). [33] E. Yoshida and M. Nakazawa," Ultrahigh speed mode-locked fiber lasers in the pico-femtosecond region," ROSC '96 , Kyoto, November 26 (1996). [34] M. Nakazawa," Recent progress in optical soliton communication," International Symposium on Solitons, Shounan Kokusai Villege, Shounan, Kanagawa, December 4 (1996). |
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| [25] M. Nakazawa,"Ultrahigh speed optical soliton communication
and related technology," 10th International Conference on Integrated
Optics and Optical Fibre Communication, IOOC'95, Invited paper, FD2-1,
Hong Kong, Jun., (1995).
[26] E. Yoshida and M. Nakazawa, "Recent progress in femtosecond fiber lasers", 9th international symposium on ultrafast processes in spectroscopy, UPS'95, MC3, Trieste, Italy, Nov., (1995) [27] H. Kubota and M. Nakazawa, " A dispersion-allocated soliton and its impact on soliton communication", International Symposium on Physics and Applications of Optical Solitons in Fibers, 14A-3, Kyoto, Japan, Nov., (1995). [28] K. Suzuki and M. Nakazawa, " 80-160 Gbit/s Ultrahigh Speed Soliton Transmission and Related Soliton Technology", 20th Australian Conference on Optical Fibre Technology, ACOFT'95, Invited paper, pp. 347-350, Coolum Beach, Queensland, Australia, Dec., (1995). [29] H. Kubota and M. Nakazawa, "Recent progress in soliton communication", International Symposium on Nonlinear Theory and its Application, NOLTA '95,G-4, Las Vegas, Nevada, U.S.A., Dec., (1995). |
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| [23] M. Nakazawa, "Ultra-high Speed Optical Soliton Communication,"
International Workshop on Femtosecond Technology, FST'94, Tsukuba,
Japan, Feb., (1994).
[24] M. Nakazawa, "Recent progress in optical soliton communication", Optical Amplifiers and their Applications, OA&A'94, ThC1-1, Breckenridge, Colorado, U.S.A., Aug., (1994). |
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| [19] M. Nakazawa, " Ultrahigh-speed optical soliton communication
and new aspects of soliton transmission technology," Optical
Fiber Conference, OFC'93, WC1, San Jose, U. S. A. (1993).
[20] M. Nakazawa, "Ultrahigh-speed optical soliton communication and soliton transmission control," Nonlinear Guided-wave phenomena, TuA1, Cambridge, England (1993). [21] M. Nakazawa, " Optical soliton transmission technology," IEEE Lasers and Electro-Optics Society 1993 Annual Meeting, LEOS'93, OC6.1, San Jose, U. S. A. (1993). [22] H. Kubota and M. Nakazawa, "High-speed optical soliton communication using erbium-doped fiber amplifier and soliton transmission control," 1993 International Symposium on Nonlinear Theory and its Applications, NOLTA'93, Honolulu, U. S. A., Dec., (1993). |
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| [15] M. Nakazawa," Recent progress on optical soliton communication
and future prospects," Optical Fiber Conference, OFC'92, WC1,
San Jose, U. S. A. (1992).
[16] M. Nakazawa, " Erbium-doped fibre amplifiers in femtosecond pulse generation and long-distance soliton communication," Mini-Symposium on Fibre Amplifiers for Communications, The Rank Prize Funds, Grasmere, U. K. April (1992). [17] M. Nakazawa, " Ultralong distance soliton transmission," Conference on Lasers and ElectroOptics, CLEO'92, CWI1, Anaheim, U. S. A. (1992). [18] M. Nakazawa, " Recent Progress on soliton transmission systems," Opto Electronics Conference, OEC'92, 15A2-2, Makuhari, Japan (1992). |
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| [12] M. Nakazawa, " Dynamic soliton communication," Optical
Fiber Conference, OFC'91, ThL1, San Diego, U. S. A. (1991).
[13] M. Nakazawa, " Optical soliton communication using erbium-doped fibre amplifiers," European Conference on Optical Communication, ECOC/IOOC'91, Th. C 10.1, Paris, France (1991). [14] M. Nakazawa, " Erbium-doped fiber amplifiers for ultrashort pulse generation and optical soliton communication," Optical Society of America Annual Meeting, MT3, San Jose, U. S. A. (1991). |
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| [9] M. Nakazawa and Y. Kimura, "Amplification and transmission
at l.53-l.55 mm with Er-3+-doped fibers," Optical Fiber Conference,
OFC'90, FA5, San Francisco, U. S. A. (1990).
[10] M. Nakazawa, "Propagation and amplification of ultrashort optical soliton pulses in erbium-doped fibers for very high speed communication," Topical Meeting on Ultrafast Phenomena, ICUP'90, ThA2-1, Monterey, U. S. A. (1990). [11] M. Nakazawa, " The dawn of optical soliton communication," Mini-Symposium on Nonlinear optical Fibre Pulse Processing, The Rank Prize Funds, WE-14, Grasmere, U. K. September (1990). |
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| [5] M. Nakazawa and H. A. Haus, " The modulational instability laser," Nonlinear Guided-Wave Phenomenon: Physics and Applications, FAl-l, Houston, U. S. A. (1989). [6] M. Nakazawa, "Erbium-doped optical fiber amplifier, " Workshop on Optical Amplification for Communications, in conjunction with IOOC'89, Kobe, Japan (1989). [7] M. Nakazawa, "Femtosecond fiber Raman soliton and related technique," International conference on Integrated Optics and Optical Fiber Communication, IOOC'89, l8A2-l, Kobe, Japan (1989). [8] M. Nakazawa, " Erbium-doped fiber amplifier and its application to nonlinear optics," SPIE, vol.ll7l, Boston, Massachusetts, U. S. A. (1989). |
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| [4] M. Nakazawa, " The soliton laser," l3th European workshop on Optical Waveguide Theory, Arundel, England, (1988). | |||
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| [3] M. Nakazawa, " Optical time domain reflectometors in single-mode optical fibers," XXIInd General Assembly of the International Union of Radio-Science, URSI, Tel Aviv, Israel (1987). | |||
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| [2] M. Nakazawa, " Raman amplification for silica fiber, "CLEO'84, FR2, Anaheim, U. S. A. (1984). | |||
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[1] M. Nakazawa, M. Tokuda, and N. Uchida, " Long distance fault location system for single-mode and multi-mode fibers with l.32 mm YAG laser," CLEO'82, WL4, Anaheim, U. S. A. (1982). |
