Semiconductor nanowire lasers are single-element structures that can act as both gain
material and cavity for optical lasing. They have typical dimensions on the order of an optical …

As natural one‐dimensional confined electron transport channels and photon propagation
paths, nanowires (NWs) display unmatched properties and huge potential for application in …

Active wavelength‐scale optoelectronic components are widely used in photonic integrated
circuitry, however coherent sources of light–namely optical lasers–remain the most …

Nanowire lasers are sought for near‐field and on‐chip photonic applications as they provide
integrable, coherent, and monochromatic radiation: the functional performance (threshold …

The amalgamation of high-strained core/shell geometries in nanowire (NW) heterostructures
with bandgap engineering enables the systems with novel transport and optical properties …

Continuous room temperature nanowire lasing from silicon-integrated optoelectronic
elements requires careful optimisation of both the lasing cavity Q-factor and population …

Multiwavelength plasmonic nanolasers are central to the quest for ultradense and versatile
photonic integrations. However, the insufficient optical feedback and mode selection …

Controlling the random lasing action from disordered media is important to obtain
customizable lasers with unprecedented properties. In this paper, systematic investigations …

Develo** miniaturized microlasers with higher monochromaticity and better beam quality
is crucial importance because of their tremendous potential in commercial applications …

Axially stacked quantum dots (QDs) in nanowires (NWs) have important applications in
nanoscale quantum devices and lasers. However, there is lack of study of defect-free growth …