An anonymous reader writes: Many physicists, writes Jennifer Ouellette in “How Quantum Pairs Stitch Space-Time,” have long “suspected a deep connection between quantum entanglement — the ‘spooky action at a distance’ that so vexed Albert Einstein — and space-time geometry at the smallest scales.” How might entanglement stitch together the structured fabric of space-time? One compelling recent idea, writes K.C. Cole in “Wormholes Untangle a Black Hole Paradox,” suggests that quantum entanglement “could be creating the ‘spatial connectivity’ that ‘sews space together,’ according to Leonard Susskind, a physicist at Stanford University and one of the idea’s main architects.” This idea, though still in its infancy, would solve the troublesome black hole firewall paradox and, enticingly, could help explain quantum gravity.
To illustrate how space-time might arise from quantum entanglement, Quanta Magazine invited Owen Cornec, a data visualization fellow at Harvard University’s John F. Kennedy School of Government, to imagine peeling back layers of space to find a network of entanglements. The resulting interactive presentation serves as the third installment of our series on “The Quantum Fabric of Space-Time.”