Regime Shift: Fold Bifurcation and Hysteresis

Adoption of complementary networks proceeds by discontinuous first-order transition, not gradual diffusion. Saddle-node bifurcation creates hysteresis.

Dynamics & Crises70

Impact Score

Economic Importance

8.0

Novelty

8.0

Theoretical Coverage

6.0

Empirical Coverage

6.0

Article Quality

9.0

Score Reasoning

Importance: Fold bifurcation and hysteresis in CES adoption. The discontinuous regime shift (not gradual diffusion) is critical for mesh formation and AI transition predictions.
Novelty: Formal connection between CES entry-exit dynamics and saddle-node bifurcation. Hysteresis width proportional to K and universality class with critical exponents are new.
Quality: Clear fold bifurcation mechanics, hysteresis explanation, universality discussion, and underentry welfare result. Good cross-links (6 inbound).