Path integral analysis of multiplicative fractional Gaussian noise yields a Gaussian propagator via Lamperti transform and reveals an effective drift causing probability buildup in low-noise regions under confinement.
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Active nematics show activity-independent linearized temperature correlations in homogeneous states but develop inhomogeneous temperature profiles under confinement during spontaneous flow transitions.
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Confined kinetics and heterogeneous diffusion driven by fractional Gaussian noise: A path integral approach
Path integral analysis of multiplicative fractional Gaussian noise yields a Gaussian propagator via Lamperti transform and reveals an effective drift causing probability buildup in low-noise regions under confinement.
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On the temperature of an active nematic
Active nematics show activity-independent linearized temperature correlations in homogeneous states but develop inhomogeneous temperature profiles under confinement during spontaneous flow transitions.