Do bosons ever masquerade as fermions?

Bosons can pile on top of one another without limit, all occupying the same quantum state. At low temperatures, this causes such strange phenomena as superconductivity, superfluidity and Bose-Einstein condensation. It also allows photons of the same frequency to form coherent laser beams. Fermions, on the other hand, avoid one another. Electrons around a nucleus stack into shells instead of collapsing into a condensed cloud, giving rise to atoms with a great range of chemical properties.
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“If just one pair of photons out of 10 billion had taken the bait and behaved like fermions, we would have seen it,” English said. “Photons are bosons, at least within our experimental sensitivity.”