The following publications are possibly variants of this publication:
- Transmission over 9, 100 km with a capacity of 49.3 Tb/s using variable spectral efficiency 16 QAM based coded modulationJin-Xing Cai, H. Zhang, H. G. Batshon, Matthew V. Mazurczyk, Oleg V. Sinkin, Y. Sun, Alexei N. Pilipetskii, Dmitri G. Foursa. ofc 2014: 1-3 [doi]
- 105.1 Tb/s power-efficient transmission over 14, 350 km using a 12-core fiberAlexey V. Turukhin, Oleg V. Sinkin, H. G. Batshon, H. Zhang, Y. Sun, Matthew V. Mazurczyk, Carl R. Davidson, Jin-Xing Cai, Maxim A. Bolshtyansky, Dmitri G. Foursa, Alexei N. Pilipetskii. ofc 2016: 1-3 [doi]
- 94.9 Tb/s Single Mode Capacity Demonstration over 1, 900 km with C+L EDFAs and Coded ModulationJin-Xing Cai, H. G. Batshon, Matthew V. Mazurczyk, Carl R. Davidson, Oleg V. Sinkin, D. Wang, Milen Paskov, W. W. Patterson, Maxim A. Bolshtyansky, Dmitri G. Foursa. ecoc 2018: 1-3 [doi]
- Performance of Nonlinear Compensation Techniques in a 71.64 Tb/s Capacity Demonstration Over 6970 kmMatthew V. Mazurczyk, Jin-Xing Cai, H. G. Batshon, Milen Paskov, Oleg V. Sinkin, D. Wang, W. W. Patterson, Carl R. Davidson, Patrick C. Corbett, G. Wolter, Timothy E. Hammon, Maxim A. Bolshtyansky, Dmitri G. Foursa. ecoc 2017: 1-3 [doi]
- 70.4 Tb/s capacity over 7, 600 km in C+L band using coded modulation with hybrid constellation shaping and nonlinearity compensationJin-Xing Cai, H. G. Batshon, Matthew V. Mazurczyk, Oleg V. Sinkin, D. Wang, Milen Paskov, W. W. Patterson, Carl R. Davidson, Patrick C. Corbett, G. Wolter, Timothy E. Hammon, Maxim A. Bolshtyansky, Dmitri G. Foursa, Alexei N. Pilipetskii. ofc 2017: 1-3 [doi]