TY  - GEN
A1  - Zhang, N.
A1  - Scaffardi, M.
A1  - Malik, M.N.
A1  - Toccafondo, V.
A1  - Klitis, C.
A1  - Lavery, M.P.J.
A1  - Meloni, G.
A1  - Fresi, F.
A1  - Lazzeri, E.
A1  - Marini, D.
A1  - Zhu, J.
A1  - Cai, X.
A1  - Yu, S.
A1  - Potì, L.
A1  - Preve, G.
A1  - Bogoni, A.
A1  - Sorel, M.
UR  - https://ieeexplore.ieee.org/document/8386349
ID  - enlighten171587
SN  - 9781943580385
N2  - A 4OAMx4WDM switching experiment has been carried out combining an innovative integrated tunable OAM multiplexer based on 4-concentric omega-shaped silicon waveguides and a refractive element-based OAM demultiplexer; operation is demonstrated up to 120Gb/s.
AV  - public
Y1  - 2018/06/14/
TI  - 4 OAM × 4 WDM Optical Switching Based on an Innovative Integrated Tunable OAM Multiplexer
KW  - Angular momentum
KW  -  demultiplexing equipment
KW  -  elemental semiconductors
KW  -  integrated optoelectronics
KW  -  multiplexing equipment
KW  -  optical communication equipment
KW  -  optical switches
KW  -  optical tuning
KW  -  optical waveguides
KW  -  silicon
KW  -  wavelength division multiplexing
KW  -  4 OAM × 4 WDM optical switching
KW  -  4OAMx4WDM switching experiment
KW  -  integrated tunable OAM multiplexer
KW  -  4-concentric omega-shaped silicon waveguides
KW  -  refractive element-based OAM demultiplexer
KW  -  Si
KW  -  optical switches
KW  -  multiplexing
KW  -  optical waveguides
KW  -  optical refraction
KW  -  orbits
KW  -  optical interconnections.
ER  -