Journal Articles

Quinn, C., O’Kane, T. J., & Harries, D. (2022). Systematic calculation of finite-time mixed singular vectors and characterization of error growth for persistent coherent atmospheric disturbances over Eurasia. Chaos: An Interdisciplinary Journal of Nonlinear Science32(2), 023126.

O’Kane, T. J., Sandery, P. A., Kitsios, V., Sakov, P., Chamberlain, M. A., Squire, D. T., … & Matear, R. J. (2021). CAFE60v1: a 60-year large ensemble climate reanalysis. Part II: evaluation. Journal of Climate34(13), 5171-5194.

Quinn, C., Harries, D., & O’Kane, T. J. (2021). Dynamical analysis of a reduced model for the North Atlantic Oscillation. Journal of the Atmospheric Sciences78(5), 1647-1671.

Falkena, S. K., Quinn, C., Sieber, J., & Dijkstra, H. A. (2021). A delay equation model for the Atlantic Multidecadal Oscillation. Proceedings of the Royal Society A477(2246), 20200659.

Quinn, C., O’Kane, T. J., & Kitsios, V. (2020). Application of a local attractor dimension to reduced space strongly coupled data assimilation for chaotic multiscale systems. Nonlinear Processes in Geophysics27(1), 51-74.

Falkena, S. K., Quinn, C., Sieber, J., Frank, J., & Dijkstra, H. A. (2019). Derivation of delay equation climate models using the Mori-Zwanzig formalism. Proceedings of the Royal Society A475(2227), 20190075.

Alkhayuon, H., Ashwin, P., Jackson, L. C., Quinn, C., & Wood, R. A. (2019). Basin bifurcations, oscillatory instability and rate-induced thresholds for Atlantic meridional overturning circulation in a global oceanic box model. Proceedings of the Royal Society A475(2225), 20190051.

Quinn, C., Sieber, J., & von der Heydt, A. S. (2019). Effects of periodic forcing on a paleoclimate delay model. SIAM Journal on Applied Dynamical Systems18(2), 1060-1077.

Quinn, C., Sieber, J., von der Heydt, A. S., & Lenton, T. M. (2018). The Mid-Pleistocene Transition induced by delayed feedback and bistability. Dynamics and Statistics of the Climate System3(1), dzy005.


Quinn, C. (2019). Delayed effects and critical transitions in climate models.