TY - JOUR
T1 - Optical antennas for wavelength division multiplexing in visible light communications beyond the Étendue limit
AU - Manousiadis, Pavlos P.
AU - Chun, Hyunchae
AU - Rajbhandari, Sujan
AU - Vithanage, Dimali A.
AU - Mulyawan, Rahmat
AU - Faulkner, Grahame
AU - Haas, Harald
AU - O'Brien, Dominic C.
AU - Collins, Steve
AU - Turnbull, Graham A.
AU - Samuel, Ifor D.W.
PY - 2020/2/19
Y1 - 2020/2/19
N2 - This paper presents a novel fluorescent receiver for visible light communications that combines a broad field of view (FoV) with a significant gain, and simultaneously enables wavelength division multiplexing (WDM) for data communications. These characteristics are achieved by creating a receiver that includes a stack of two fluorescent optical antennas, each designed to receive a different part of the spectrum and create two separable communication channels. The device outperforms the theoretical étendue limit in terms of the combination of FoV and gain it can achieve. Furthermore, the demonstrated de-multiplexing of blue and green spectral components enables the parallel streaming of data by WDM. Since these devices are inexpensive, simple, and compact, they can easily be integrated into portable electronic devices such as phones, tablets, and laptops.
AB - This paper presents a novel fluorescent receiver for visible light communications that combines a broad field of view (FoV) with a significant gain, and simultaneously enables wavelength division multiplexing (WDM) for data communications. These characteristics are achieved by creating a receiver that includes a stack of two fluorescent optical antennas, each designed to receive a different part of the spectrum and create two separable communication channels. The device outperforms the theoretical étendue limit in terms of the combination of FoV and gain it can achieve. Furthermore, the demonstrated de-multiplexing of blue and green spectral components enables the parallel streaming of data by WDM. Since these devices are inexpensive, simple, and compact, they can easily be integrated into portable electronic devices such as phones, tablets, and laptops.
KW - field of view
KW - fluorescent concentrator
KW - Li-Fi
KW - optical wireless communications
U2 - 10.1002/adom.201901139
DO - 10.1002/adom.201901139
M3 - Article
SN - 2195-1071
VL - 8
JO - Advanced Optical Materials
JF - Advanced Optical Materials
IS - 4
M1 - 1901139
ER -