Volume holographic spatial mode demultiplexer with a dual-wavelength method
Applied Optics, 2018•opg.optica.org
Volume holographic demultiplexers (VHDMs) provide spatial mode demultiplexing using
simple optical systems. However, applying VHDM to practical optical communication
systems is difficult, as typical holographic media have no sensitivity in the infrared region,
which includes optical transmission bands. In this paper, we propose a VHDM scheme
combined with a dual-wavelength method (DWM). Using the DWM, VHDMs are able to
perform mode demultiplexing in the optical transmission bands. We experimentally …
simple optical systems. However, applying VHDM to practical optical communication
systems is difficult, as typical holographic media have no sensitivity in the infrared region,
which includes optical transmission bands. In this paper, we propose a VHDM scheme
combined with a dual-wavelength method (DWM). Using the DWM, VHDMs are able to
perform mode demultiplexing in the optical transmission bands. We experimentally …
Volume holographic demultiplexers (VHDMs) provide spatial mode demultiplexing using simple optical systems. However, applying VHDM to practical optical communication systems is difficult, as typical holographic media have no sensitivity in the infrared region, which includes optical transmission bands. In this paper, we propose a VHDM scheme combined with a dual-wavelength method (DWM). Using the DWM, VHDMs are able to perform mode demultiplexing in the optical transmission bands. We experimentally demonstrated the basic operation of our proposal using experiments performed at an 850-nm wavelength. In addition, we performed numerical simulations to investigate the application of VHDM to the C-band.
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