10 research outputs found
Experimental determination of the factor representing spontaneous emission into a mode of a semiconductor laser operating on a leaky wave
The literature on Triassic, Jurassic and earliest Cretaceous dinoflagellate cysts: Supplement 3
Adsorption of argon on graphite and graphite with preadsorbed xenon monolayer: Simulation using the Monte Carlo technique
Fabrication of Optimized Superconducting Phase Inverters Based on Superconductor–Ferromagnet–Superconductor π -Junctions
Mode-locked quantum-dot lasers
Semiconductor lasers are convenient and compact sources of light, offering highly efficient operation, direct electrical control and integration opportunities. In this review we describe how semiconductor quantum-dot structures can provide an efficient means of amplifying and generating ultrafast (of the order of 100 fs), high-power and low-noise optical pulses, with the potential to boost the repetition rate of the pulses to beyond 1 THz. Such device designs are opening up new possibilities in ultrafast science and technology.</p