Local monitoring at a quantum point contact produces linear entanglement growth to a volume-law maximum then slow decay to zero, captured by a quasiparticle picture with an emergent decaying bias voltage.
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Seeding boundary time crystals induces a measurement-induced phase transition where steady-state entanglement entropy scales with system size N in the seeded phase but decays exponentially otherwise.
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Entanglement Dynamics across a Monitored Quantum Point Contact
Local monitoring at a quantum point contact produces linear entanglement growth to a volume-law maximum then slow decay to zero, captured by a quasiparticle picture with an emergent decaying bias voltage.
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Quantum Trajectory Entanglement in Seeded Boundary Time Crystals
Seeding boundary time crystals induces a measurement-induced phase transition where steady-state entanglement entropy scales with system size N in the seeded phase but decays exponentially otherwise.