Publication | Closed Access
Long wavelength stimulated emission up to 9.5 <i>μ</i>m from HgCdTe quantum well heterostructures
38
Citations
30
References
2016
Year
Optical MaterialsEngineeringLaser ScienceLaser PhysicsLaser ApplicationsLaser MaterialWaveguide CoreOptoelectronic DevicesSuper-intense LasersHigh-power LasersOptical AmplifierShort-pulse LasersStimulated EmissionLong WavelengthOptical PumpingQuantum SciencePhotonicsPhotoluminescencePhysicsOptoelectronic MaterialsWaveguide HgcdteApplied PhysicsGas LasersMultilayer HeterostructuresHgcdte QuantumQuantum Photonic DeviceOptoelectronics
Stimulated emission from waveguide HgCdTe structures with several quantum wells inside waveguide core is demonstrated at wavelengths up to 9.5 μm. Photoluminescence line narrowing down to kT energy, as well as superlinear rise in its intensity evidence the onset of the stimulated emission, which takes place under optical pumping with intensity as small as ∼0.1 kW/cm2 at 18 K and 1 kW/cm2 at 80 K. One can conclude that HgCdTe structures potential for long-wavelength lasers is not exhausted.
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