Publications by authors named "Virginia Oddi"
Article Synopsis
- Lead halide perovskite quantum dots (QDs) are advanced materials known for their exceptional optical qualities, which can be utilized in classical and quantum light sources due to their unique exciton properties.
- The study reveals that these QDs can demonstrate a significant degree of circular polarization, reaching up to 38%, alongside their typical linear polarization, which is often overlooked by traditional measurement techniques.
- The findings also highlight a shift in polarization from left- to right-hand within the exciton states under varying conditions, enhancing our understanding of the photophysical behavior of these QDs and their potential applications in chiral quantum optics.
The interference of nonclassical states of light enables quantum-enhanced applications reaching from metrology to computation. Most commonly, the polarization or spatial location of single photons are used as addressable degrees of freedom for turning these applications into praxis. However, the scale-up for the processing of a large number of photons of these architectures is very resource-demanding due to the rapidly increasing number of components, such as optical elements, photon sources, and detectors.
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