Werner Klaus
Cited by
Cited by
Field test of quantum key distribution in the Tokyo QKD Network
M Sasaki, M Fujiwara, H Ishizuka, W Klaus, K Wakui, M Takeoka, S Miki, ...
Optics express 19 (11), 10387-10409, 2011
2.15 Pb/s transmission using a 22 core homogeneous single-mode multi-core fiber and wideband optical comb
BJ Puttnam, RS Luis, W Klaus, J Sakaguchi, JMD Mendinueta, Y Awaji, ...
2015 European conference on optical communication (ECOC), 1-3, 2015
19-core fiber transmission of 19× 100× 172-Gb/s SDM-WDM-PDM-QPSK signals at 305Tb/s
J Sakaguchi, BJ Puttnam, W Klaus, Y Awaji, N Wada, A Kanno, ...
OFC/NFOEC, 1-3, 2012
305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber
J Sakaguchi, BJ Puttnam, W Klaus, Y Awaji, N Wada, A Kanno, ...
Journal of Lightwave Technology 31 (4), 554-562, 2012
19-core MCF transmission system using EDFA with shared core pumping coupled via free-space optics
J Sakaguchi, W Klaus, BJ Puttnam, JMD Mendinueta, Y Awaji, N Wada, ...
Optics express 22 (1), 90-95, 2014
Realizing a 36-core, 3-mode fiber with 108 spatial channels
J Sakaguchi, W Klaus, JMD Mendinueta, BJ Puttnam, RS Luis, Y Awaji, ...
Optical Fiber Communication Conference, Th5C. 2, 2015
10.66 peta-bit/s transmission over a 38-core-three-mode fiber
G Rademacher, BJ Puttnam, RS Luís, J Sakaguchi, W Klaus, TA Eriksson, ...
optical fiber communication conference, Th3H. 1, 2020
Free-space coupling optics for multicore fibers
W Klaus, J Sakaguchi, BJ Puttnam, Y Awaji, N Wada, T Kobayashi, ...
IEEE Photonics Technology Letters 24 (21), 1902-1905, 2012
Time and modulation frequency dependence of crosstalk in homogeneous multi-core fibers
RS Luís, BJ Puttnam, AVT Cartaxo, W Klaus, JMD Mendinueta, Y Awaji, ...
Journal of Lightwave Technology 34 (2), 441-447, 2016
Large spatial channel (36-core× 3 mode) heterogeneous few-mode multicore fiber
J Sakaguchi, W Klaus, JMD Mendinueta, BJ Puttnam, RS Luís, Y Awaji, ...
Journal of lightwave technology 34 (1), 93-103, 2016
Reinterpretation of the auxiliary differential equation method for FDTD
Y Takayama, W Klaus
IEEE Microwave and Wireless Components Letters 12 (3), 102-104, 2002
Advanced space division multiplexing technologies for optical networks
W Klaus, BJ Puttnam, RS Luís, J Sakaguchi, JMD Mendinueta, Y Awaji, ...
Journal of Optical Communications and Networking 9 (4), C1-C11, 2017
Ground-to-satellite laser communication experiments
M Toyoshima, Y Takayama, T Takahashi, K Suzuki, S Kimura, K Takizawa, ...
IEEE Aerospace and Electronic Systems Magazine 23 (8), 10-18, 2008
Software defined networking (SDN) over space division multiplexing (SDM) optical networks: features, benefits and experimental demonstration
N Amaya, S Yan, M Channegowda, BR Rofoee, Y Shu, M Rashidi, Y Ou, ...
Optics express 22 (3), 3638-3647, 2014
Fully-elastic multi-granular network with space/frequency/time switching using multi-core fibres and programmable optical nodes
N Amaya, M Irfan, G Zervas, R Nejabati, D Simeonidou, J Sakaguchi, ...
Optics Express 21 (7), 8865-8872, 2013
High capacity transmission systems using homogeneous multi-core fibers
BJ Puttnam, RS Luís, E Agrell, G Rademacher, J Sakaguchi, W Klaus, ...
Journal of Lightwave Technology 35 (6), 1157-1167, 2017
Impact of intercore crosstalk on the transmission distance of QAM formats in multicore fibers
BJ Puttnam, RS Luis, TA Eriksson, W Klaus, JMD Mendinueta, Y Awaji, ...
IEEE Photonics Journal 8 (2), 1-9, 2016
Ground-to-OICETS laser communication experiments
M Toyoshima, K Takizawa, T Kuri, W Klaus, M Toyoda, H Kunimori, ...
Free-space laser communications VI 6304, 79-86, 2006
High-capacity self-homodyne PDM-WDM-SDM transmission in a 19-core fiber
BJ Puttnam, R Luis, JM Delgado-Mendinueta, J Sakaguchi, W Klaus, ...
Optics Express 22 (18), 21185-21191, 2014
Self-homodyne detection in optical communication systems
BJ Puttnam, RS Luís, JM Delgado Mendinueta, J Sakaguchi, W Klaus, ...
Photonics 1 (2), 110-130, 2014
The system can't perform the operation now. Try again later.
Articles 1–20