Fano Combs in the Directional Mie Scattering of a Water Droplet
Javier Tello Marmolejo, Adriana Canales, D. Hanstorp, Ricardo Méndez-Fragoso
Abstract
When light scatters off a sphere, it produces a rich Mie spectrum full of overlapping resonances. Single resonances can be explained with a quantum analogy and result in Fano profiles. However, the full spectrum is so complex that recognizable patterns have not been found, and is only understood by comparing to numerical simulations. Here we show the directional Mie spectrum of evaporating water droplets arranged in consecutive Fano Combs. We then fully explain it by expanding the quantum analogy. This turns the droplet into an "optical atom" with angular momentum, tunneling, and excited states.
Topics & Concepts
PhysicsMie scatteringFano resonanceExcited stateFano planeScatteringQuantum tunnellingQuantumAngular momentumOpticsLight scatteringQuantum mechanicsAtomic physicsPlasmonPure mathematicsMathematicsOrbital Angular Momentum in OpticsCold Atom Physics and Bose-Einstein CondensatesRandom lasers and scattering media