To justify the parameter choice, we assign {N, n1, n2} = {16, 3, 13} and inspect the trace drift in Fig

Effectiveness of chiral implementation, absorbing boundary conditions For all MPS simulations used in the main matter, we set Dmax = 18, ∆t = 0

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Transient entanglement generation in driven chiral networks beyond the secular approximation

quant-ph · 2026-04-15 · unverdicted · novelty 6.0

Continuous driving in chiral quantum networks allows transient concurrence to exceed the undriven 2/e benchmark because nonsecular terms mix dressed-state coherences under strong driving.

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Transient entanglement generation in driven chiral networks beyond the secular approximation quant-ph · 2026-04-15 · unverdicted · none · ref 67
Continuous driving in chiral quantum networks allows transient concurrence to exceed the undriven 2/e benchmark because nonsecular terms mix dressed-state coherences under strong driving.

To justify the parameter choice, we assign {N, n1, n2} = {16, 3, 13} and inspect the trace drift in Fig

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