8(a)(left), then ¯y ∼ ± 1 and ˙¯x ∼ ± ω and the angular driving ω of both oscillators work together to increase ¯x

If both oscillator states are 15 positioned in the negative or positive y-plane, denoted in-phase in Fig · 2020

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Energetics of stochastic limit-cycle oscillators: when does coupling reduce dissipation?

cond-mat.stat-mech · 2026-04-27 · unverdicted · novelty 6.0

Cartesian coupling between stochastic circular limit-cycle oscillators reduces steady-state entropy production rate compared with the uncoupled system, independent of effective temperature and population size, while radial and phase couplings produce more variable effects.

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Energetics of stochastic limit-cycle oscillators: when does coupling reduce dissipation? cond-mat.stat-mech · 2026-04-27 · unverdicted · none · ref 9
Cartesian coupling between stochastic circular limit-cycle oscillators reduces steady-state entropy production rate compared with the uncoupled system, independent of effective temperature and population size, while radial and phase couplings produce more variable effects.

8(a)(left), then ¯y ∼ ± 1 and ˙¯x ∼ ± ω and the angular driving ω of both oscillators work together to increase ¯x

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