Physics and Applications of High‐β Micro‐and Nanolasers
Micro‐and nanolasers are emerging optoelectronic components with many properties still to
be explored and understood. On the one hand, they make it possible to address …
be explored and understood. On the one hand, they make it possible to address …
The onset of lasing in semiconductor nanolasers
Nanolasers based on emerging dielectric cavities with deep sub‐wavelength confinement of
light offer a large light‐matter coupling rate and near‐unity spontaneous emission factor, β β …
light offer a large light‐matter coupling rate and near‐unity spontaneous emission factor, β β …
“Phase transitions” in small systems: Why standard threshold definitions fail for nanolasers
GL Lippi, T Wang, GP Puccioni - Chaos, Solitons & Fractals, 2022 - Elsevier
Since the development of micro-and nanolasers, the question of laser threshold has been
subject to debate. Different definitions have been used to try and establish its occurrence …
subject to debate. Different definitions have been used to try and establish its occurrence …
Stochastic approach to the quantum noise of a single-emitter nanolaser
M Bundgaard-Nielsen, EV Denning, M Saldutti… - Physical Review Letters, 2023 - APS
It is shown that the quantum intensity noise of a single-emitter nanolaser can be accurately
computed by adopting a stochastic interpretation of the standard rate equation model. The …
computed by adopting a stochastic interpretation of the standard rate equation model. The …
The threshold of semiconductor nanolasers
Nanolasers based on emerging dielectric cavities with deep sub-wavelength confinement of
light offer a large light-matter coupling rate and a near-unity spontaneous emission factor …
light offer a large light-matter coupling rate and a near-unity spontaneous emission factor …
Revisiting the Siegert relation for the partially coherent regime of nanolasers
The Siegert relation connects the first-and second-order coherence properties of light.
Although strictly valid only in the thermal regime and in the absence of correlations, this …
Although strictly valid only in the thermal regime and in the absence of correlations, this …
Tunable guided resonance in twisted bilayer photonic crystal
We experimentally demonstrate tunable guided resonance in twisted bilayer photonic
crystals. Both the numerically and the experimentally obtained transmission spectra feature …
crystals. Both the numerically and the experimentally obtained transmission spectra feature …
Low-and high-β lasers in the class-A limit: photon statistics, linewidth, and the laser-phase transition analogy
N Takemura, M Takiguchi, M Notomi - JOSA B, 2021 - opg.optica.org
Nanocavity lasers are commonly characterized by the spontaneous coupling coefficient β
that represents the fraction of photons emitted into the lasing mode. While β is …
that represents the fraction of photons emitted into the lasing mode. While β is …
Topological Laser in Anomalous Quadrupole Topological Phases
Topological photonics shows considerable promise in revolutionizing photonic devices
through the use of topological phases, leading to innovations like topological lasers that …
through the use of topological phases, leading to innovations like topological lasers that …
Emulating the local Kuramoto model with an injection-locked photonic crystal laser array
The Kuramoto model is a mathematical model for describing the collective synchronization
phenomena of coupled oscillators. We theoretically demonstrate that an array of coupled …
phenomena of coupled oscillators. We theoretically demonstrate that an array of coupled …