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Experimental quantification of the robustness of adiabatic rapid passage for quantum state inversion in semiconductor quantum dots

Ajith Ramachandran, J. Fraser-Leach, Sabine O’Neal, D.G. Deppe, K. C. Hall

2021Optics Express18 citationsDOIOpen Access PDF

Abstract

Adiabatic rapid passage (ARP) is demonstrated in a single In(Ga)As quantum dot (QD) over a wide range of laser tuning relative to the exciton transition energy to assess the level of robustness of this quantum state inversion gate for practical QD systems. Our experiments indicate a drop in exciton inversion by only 5% for a detuning of 9.3 meV, indicating accessible detunings that span the typical inhomogeneous broadening of self-assembled QD ensembles. Our findings indicate that ARP is an ideal control protocol for synchronous triggering of quantum light sources for applications in photonic quantum technology.

Topics & Concepts

PhysicsAdiabatic processQuantum dotPhotonicsQuantum opticsQuantumExcitonRobustness (evolution)Quantum mechanicsOptoelectronicsChemistryGeneBiochemistrySemiconductor Quantum Structures and DevicesSemiconductor Lasers and Optical DevicesQuantum Information and Cryptography
Experimental quantification of the robustness of adiabatic rapid passage for quantum state inversion in semiconductor quantum dots | Litcius