Open AccessSpectral study on utilizing ambient light with luminescent materials for display applications
Author(s) -
Ichiro Fujieda,
Yoshio Tsutsumi,
Shiori Matsuda
Publication year - 2021
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.418869
Subject(s) - gamut , optics , color gel , luminescence , materials science , shutter , optoelectronics , color rendering index , reflector (photography) , photon , radiant flux , wavelength , photoluminescence , phosphor , multispectral image , luminous flux , layer (electronics) , physics , remote sensing , nanotechnology , light source , geology , thin film transistor
A luminous reflective display can be constructed by placing an electro-optic shutter on the stack of a luminescent layer, a color filter, and a reflector in this order. The luminescent materials convert a part of the incident light to photoluminescence photons. The reflector redirects the downward photon flux toward an observer. The color filters prevent the photons with unwanted wavelengths from being reflected. The upward spectral flux from this multi-layer structure is formulated. Experiments with off-the-shelf components revealed more than three-fold increase in spectral flux and up to 55% color gamut extension, compared with a control device without luminescent materials.