Quantum complexity grows linearly for an exponentially long time

Black holes and wormholes in the universe are complex many body systems and require a deeper understanding of space, time, gravity and quantum physics. © Trahko/132658940/stock.adobe.com

Physicists know about the huge chasm between quantum physics and the theory of gravity. However, in recent decades, theoretical physics has provided some plausible conjecture to bridge this gap and to describe the behavior of complex quantum many-body systems — for example, black holes and wormholes in the universe.

Now, researchers have proven a mathematical conjecture about the behavior of complexity in such systems, increasing the viability of this bridge.

The work is published in Nature Physics.

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