[1] J. Zhou, C. Yu, G. Mohan and H. Kim, Journal of Lightwave Technology 34, 3790 (2016).

[2] Y. Shao, F. Chen, A. Wang, Y. Luo and L. Chen, Optik -International Journal for Light and Electron Optics 146, 63 (2017).

[3] G. M. Isoe, S. Wassin, R. R. G. Gamatham, A. W. R. Leitch and T. B. Gibbon, Journal of Modern Optics 64, 2336 (2017).

[4] J. A. Tatum, D. Gazula, L. A. Graham, J. K. Guenter, R. H. Johnson, J. King, C. Kocot, G. D. Landry, I. Lyubomirsky, A. N. MacInnes, E. M. Shaw, K. Balemarthy, R. Shubochkin, D. Vaidya, M. Yan and F. Tang, Journal of Lightwave Technology 33, 727 (2015).

[5] R. Szweda, III-Vs Review 19, 32 (2006).

[6] R. Michalzik, VCSELs: Fundamentals, Technology and Applications of Vertical-Cavity Surface-Emitting Lasers, Springer, 2012.

[7] A. Caballero, N. Guerrero, F. Amaya, F. Amaya, D. Zibar and I. T. Monroy, Long Reach and Enhan-ced Power Budget DWDM Radio-Over-Fibre Link Supported by Raman Amplification and Coherent Detection, 35th European Conference on Optical Communication, 2009.

[8] S. Li, C. Wang, H. Lu and J. Zhao, IEEE Photonics Journal 9, 7202608 (2017).

[9] A. S. Gupta, A. K. Hanjura and B. S. Mathur, Proceedings of the IEEE 79, 973 (1991).

[10] J. Jespersen, Survey of Time and Frequency Dissemination Techniques. 24th Annual Symposium on Frequency Control, 1970.

[11] G. M. Isoe, S. Wassin, R. R. G. Gamatham, A. W. R. Leitch and T. B. Gibbon, Proc. SPIE 10129, Optical Metro Networks and Short-Haul Systems IX, 101290F (2017).

[12] G. Isoe, K. Muguro, D. Waswa, D. Osiemo, E. Kirui and H. Cherutoi, Forward Raman Amplification Characterization in Optical Networks, Sustainable Research and Innovation Conference, 251 (2014).

[13] G. M. Isoe, K. M. Muguro, D. W. Waswa, E. K. R. Kipnoo, T. B. Gibbon and A. W. R. Leitch, Effects of Double Rayleigh Scattering in Fibre Raman Amplifier at Different Pump Configurations, Southern African Telecommunication Networks and Application Conference, 2013.

[14] G. M. Isoe, K. M. Muguro, D. W. Waswa, E. K. R. Kipnoo, T. B. Gibbon and A. W. R. Leitch, Performance Comparison of SMF-Reach and SMF-RS Optical Fibres for Raman Amplification, 59th South African Institute of Physics, 2014.

[15] G. M. Isoe, E. K. Rotich, D. K. Boiyo, R. R. G. Gamatham, A. W. R. Leitch, T. B. Gibbon, K. M. Muguro and D. W. Waswa, Noise Figure and Pump Reflection Power in SMF-Reach Optical Fibre for Raman Amplification, AFRICON, 1 (2015).

[16] I. G. s. E. S. T. Force. (15/09/2017). IEEE Standard 802.3.bm. http://www.ieee802.org/3/bm/index

[17] B. Zhu, L. Leng, L. Nelson, L. Gruner-Nielsen, Y. Qian, J. Bromage, S. Stulz, S. Kado, Y. Emori, Shu Namiki, P. Gaarde, A. Judy, B. Palsdottir and R. L. Lingle Jr, 3.2 Tb/s (80×42.7 Gb/s) Transmission over 20×100km of Non-Zero Dispersion Fiber with Simultaneous C+ L-Band Dispersion Compensation, Optical Fiber Communication Conference, FC8 (2002).

[18] W. S. Pelouch, Journal of Lightwave Technology 34, 6 (2016).

[19] J. Bromage, Journal of Lightwave Technology 22, 79 (2004).