Groundskeepers and landscapers hate them, but there is no fighting them. Called desire paths, social trails or goat tracks, they are the unofficial shortcuts people create between two locations when the purpose-built path doesn't take them where they want to go.

There's a similar concept in classical physics called the "path of least action." If you throw a softball to a friend, the ball traces a parabola through space. It doesn't follow a serpentine path or loop the loop because those paths have higher "actions" than the true path.

But what paths do quantum particles, such as atoms or photons, follow? For these particles, the laws of classical physics cease to apply, and quantum physics and its counterintuitive effects takes over.

Quantum particles can exist in a superposition of states, yet as soon as quantum particles are "touched" by the outside world, they lose this quantum strangeness and collapse to a classically permitted state. Because of this evasiveness, it wasn't possible until recently to observe them in their quantum state.

But in the past 20 years, physicists have devised devices that isolate quantum systems from the environment and allow them to be probed so gently that they don't immediately collapse. With these devices, scientists can at long last follow quantum systems into quantum territory, or state space.

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