Probability density optical tomography of confined quasiparticles in a semiconductor microcavity

We present the optical tomography of the probability density of quasiparticles, the microcavity polaritons, confined in three dimensions by cylindrical traps. Collecting the photoluminescence emitted by the quasimodes under continuous nonresonant laser excitation, we reconstruct a three-dimensional mapping of the photoluminescence, from which we can extract the spatial distribution of the confined states at any energy. We discuss the impact of the confinement geometry on the wave function patterns and give an intuitive understanding in terms of a light-matter quasiparticle confined in a box.

Probability density optical tomography of confined quasiparticles in a semiconductor microcavity

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Noise-induced transitions past the onset of a steady symmetry-breaking bifurcation: The case of the sudden expansion

Nonlinear optical diode effect in a magnetic Weyl semimetal

On distributional autoregression and iterated transportation

Noise-induced transitions past the onset of a steady symmetry-breaking bifurcation: The case of the sudden expansion

Nonlinear optical diode effect in a magnetic Weyl semimetal

On distributional autoregression and iterated transportation