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Th2B.6

"Experimental Evaluation of an Unrepeated Link Using C, L, and U Transmission Bands"
     Divya A. Shaji1, Daniele Orsuti2, R. S. Luis3, B. J. Puttnam4
     Manuel S. Neves5, B. Boriboon6, Dini Pratiwi7, Ian Phillips7,
     Mingming Tan7, Aleksandr Donodin7, Wladek Forysiak7
     Luca Palmieri2, Antonio Mecozzi1, Cristian Antonelli1,
and
     Hideaki Furukawa3

          1. University of L’Aquila, Italy
          2. University of Padova, Italy

          3. NICT, Japan

          4. Microsoft Azure Fiber

          5. University of Aveiro, Portugal

          6. Chulalongkorn UniversityThailand

          7. Aston University, U.K.

Th2B.1 "16.1 Tb/s, 363 km, Unrepreated C-band Transmission with Bidirectional Raman Amplification without ROPA"
     Daniele Orsuti1, R. S. Luis2, B. J. Puttnam3, Manuel S. Neves4,
     Divya A. Shaji5, B. Boriboon6, Luca Palmieri7, and H. Furukawa2

          1. University of Padova, Italy

          2. NICT, Japan

          3. Microsoft Azure Fiber

          4. University of Aveiro, Portugal

          5. University of L’Aquila, Italy

          6. Chulalongkorn UniversityThailand

          7. University of Padova, Italy

W1G.6

"Free-Space Optics-based Multi-Channel Variable Optical Attenuator for FIFO-less 4-Core Fiber Systems with Low-Insertion Loss"
     Y. Goto1, Asumi Kaya2, Taketoshi Takahara2, Tetsuya Kobayashi2and
     H. Furukawa1

          1. NICT, Japan

          2. Optoquest Co., Ltd., Japan

W4B.2 "GPU-Based, Real-Time, Optical Subcarrier Multiplexing Directed Towards Distributed Neural Network Computing"
     M. S. Neves1, D. Orsuti2, R. S. Luis3, B. Boriboon4, B. J. Puttnam5
     S. Shinada3, P. P. Monteiro1, F. P. Guiomar1, and H. Furukawa3

          1. University of Aveiro, Portugal

          2. University of Padova, Italy

          3. NICT, Japan

          4. Chulalongkorn UniversityThailand

          5. Microsoft Azure Fiber

TuB1.1 "Burst-mode EDFA Assisted Flexible End-to-end Optical Path Configuration in Multi-domain, Multi-vendor Disaggregated Optical Networks"
     Y. Hirota1, T. Hashimoto1, T. Makino1, Y. Goto1, and H. Furukawa1
          1. NICT, Japan

Tu3B.1 "High Data-Rate Optical Transmission in Multi-Core/Multi-Mode Fibers"
     R. S. Luis1, B. J. Puttnam2, Georg Rademacher3, and H. Furukawa1
          1. NICT, Japan
          2. Microsoft Azure Fiber
          3. University of Stuttgart, Germany

Tu1D.4 "800 Gb/s SDM Optical Interconnect with Optical Circuit Switch for Intra-Data Centers using O-band PAM8"
     B. Boriboon1, R. S. Luis2, B. J. Puttnam3, S. Shinada2
     Nikolaos-Panteleimon Diamantopoulos4, Shinji Matsuo4and
     H. Furukawa2

          1. Chulalongkorn UniversityThailand

          2. NICT, Japan

          3. Microsoft Azure Fiber

          4. NTT Device Technology Laboratories, Japan

M2B.2 "339.1 Tb/s OESCLU-band transmission over 100 km SMF"
     B. J. Puttnam1, R. S. Luis2, I. Phillips3, M. Tan, A. Donodin3
     D. Pratiwi3, L. Dallachiesa4, Y. Huang4, M. Mazur4,
     N. K. Fontaine4
H. Chen4, D. Chung5, V. Ho5, D. Orsuti6,
     D. A. Shaji
7, B. Boriboon8G. Rademacher9, L. Palmieri6,
     R. Man5, R. Ryf4, D. T. Neilson4
W. Forysiak3, and H. Furukawa2

          1. Microsoft Azure Fiber

          2. NICT, Japan

          3. Aston University, U.K.

          4. Bell Laboratories, U.S.A.

          5. Amonics, Hong Kong,

          6. University of Padova, Italy

          7. University of L’Aquila, Italy

          8. Chulalongkorn UniversityThailand

          9. University of Stuttgart, Germany

Th2E.4
 
"Demonstration of a 126 nm, S+C+L Band ROADM in a Field-Deployed Fiber Network"
     R. S. Luis1, Jiaqian Yang2, B. J. Puttnam3, Eric Sillekens2
     Mindaugas Jarmolovicius2, Romulo Aparecido2, Robert Killey2
     S. Shinada1, Polina Bayvel2, and H. Furukawa1

          1. NICT, Japan

          2. University College London, U.K.

          3. Microsoft Azure Fiber