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Giant Rydberg excitons in Cu$_{2}$O probed by photoluminescence excitation spectroscopy

Rydberg excitons are, with their ultrastrong mutual interactions, giant optical nonlinearities, and very high sensitivity to external fields, promising for applications in quantum sensing and nonlinear optics at the single-photon level. To design quantum applications it is necessary to know how Rydberg excitons and other excited states relax to lower-lying exciton states. Here, we present photoluminescence excitation spectroscopy as a method to probe transition probabilities from various excitonic states in cuprous oxide, and we show giant Rydberg excitons at $T=38$ mK with principal quantum numbers up to $n=30$, corresponding to a calculated diameter of 3 $μ$m.

preprint2021arXivOpen access
Marijn A. M. VersteeghStephan SteinhauerJosip BajoThomas LettnerAriadna SoroAlena RomanovaSamuel GygerLucas SchweickertAndré MysyrowiczVal Zwiller
cond-mat.mes-hallcond-mat.mtrl-sciphysics.opticsquant-ph
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Open access10 authors4 topics
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Marijn A. M. VersteeghStephan SteinhauerJosip BajoThomas LettnerAriadna SoroAlena RomanovaSamuel GygerLucas SchweickertAndré MysyrowiczVal Zwiller

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