Affiliation:
1. Suzhou Lighting Chip Monolithic Optoelectronics Technology Co., Ltd.
Abstract
When an AlGaInP quantum well (QW) diode is biased with a forward
voltage and illuminated with an external shorter-wavelength light
beam, the diode is in a superposition state of both light emission and
detection. The two different states take place simultaneously, and
both the injected current and the generated photocurrent begin to mix.
Here, we make use of this intriguing effect and integrate an AlGaInP
QW diode with a programmed circuit. The AlGaInP QW diode with the
dominant emission peak wavelength centered around 629.5 nm is excited
by a 620-nm red-light source. The photocurrent is then extracted as a
feedback signal to regulate the light emission of the QW diode in real
time without an external or monolithically integrated photodetector,
paving a feasible way to autonomously adjust the brightness of the QW
diode for intelligent illumination in response to changes in the
environmental light condition.
Funder
National Key Research and Development
Program of China
Natural Science Foundation of Jiangsu
Province
National Natural Science Foundation of
China
Natural Science Foundation of the Jiangsu
Higher Education Institutions of China
Foundation of Jiangsu Provincial
Double-Innovation Doctor Program
111 Project
Suzhou Innovation and Entrepreneurship
Leading Talent Plan
Subject
Atomic and Molecular Physics, and Optics