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Tailoring the properties of quantum dot-micropillars by ultrafast optical injection of free charge carriers

Emanuel Peinke, Tobias Sattler, Guilherme M. Torelly, P. L. Souza, Sylvain Perret, J. Bleuse, Julien Claudon, Willem L. Vos, Jean‐Michel Gérard

2021Light Science & Applications11 citationsDOIOpen Access PDF

Abstract

We review recent studies of cavity switching induced by the optical injection of free carriers in micropillar cavities containing quantum dots. Using the quantum dots as a broadband internal light source and a streak camera as detector, we track the resonance frequencies for a large set of modes with picosecond time resolution. We report a record-fast switch-on time constant (1.5 ps) and observe major transient modifications of the modal structure of the micropillar on the 10 ps time scale: mode crossings are induced by a focused symmetric injection of free carriers, while a lifting of several mode degeneracies is observed when off-axis injection breaks the rotational symmetry of the micropillar. We show theoretically and experimentally that cavity switching can be used to tailor the dynamic properties of the coupled QD-cavity system. We report the generation of ultrashort spontaneous emission pulses (as short as 6 ps duration) by a collection of frequency-selected QDs in a switched pillar microcavity. These pulses display a very small coherence length, attractive for ultrafast speckle-free imaging. Moreover, the control of QD-mode coupling on the 10 ps time scale establishes cavity switching as an appealing resource for quantum photonics.

Topics & Concepts

Quantum dotUltrashort pulsePicosecondOptoelectronicsPhotonicsMaterials scienceOpticsOptical switchPhysicsLaserPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesNeural Networks and Reservoir Computing
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