Over the past decade, tremendous progress has been achieved in the development of
nanoscale semiconductor materials with a wide range of bandgaps by alloying different …

Neuromorphic photonics system based on the principle of biological brain is emerging as
one of the potential solutions to the bottleneck inherent in classical von Neumann computing …

The rapidly growing field of nanoscale lasers can be advanced through the discovery of
new, tunable light sources. The emission wavelength tunability demonstrated in perovskite …

The discovery and continued development of the laser has revolutionized both science and
industry. The advent of miniaturized, semiconductor lasers has made this technology an …

Constrained by large ohmic and radiation losses, plasmonic nanolasers operated at visible
regime are usually achieved either with a high threshold (102–104 MW cm− 2) or at …

Semiconductor lasers, an important subfield of semiconductor photonics, have
fundamentally changed many aspects of our lives and enabled many technologies since …

The concept of random lasers exploiting multiple scattering of photons in an amplifying
disordered medium in order to generate coherent light without a traditional laser resonator …

Colloidal semiconductor nanocrystals have emerged as promising active materials for
solution-processable optoelectronic and light-emitting devices. In particular, the …

Lead halide perovskites are considered as very promising photovoltaic materials due to their
tunable direct bandgaps, large absorption coefficients, long carrier diffusion lengths, and …

Highly integrated optoelectronic and photonic systems underpin the development of next-
generation advanced optical and quantum communication technologies, which require …