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Computation of extreme heat waves in climate models using a large deviation algorithm.


ABSTRACT: Studying extreme events and how they evolve in a changing climate is one of the most important current scientific challenges. Starting from complex climate models, a key difficulty is to be able to run long enough simulations to observe those extremely rare events. In physics, chemistry, and biology, rare event algorithms have recently been developed to compute probabilities of events that cannot be observed in direct numerical simulations. Here we propose such an algorithm, specifically designed for extreme heat or cold waves, based on statistical physics. This approach gives an improvement of more than two orders of magnitude in the sampling efficiency. We describe the dynamics of events that would not be observed otherwise. We show that European extreme heat waves are related to a global teleconnection pattern involving North America and Asia. This tool opens up a wide range of possible studies to quantitatively assess the impact of climate change.

SUBMITTER: Ragone F 

PROVIDER: S-EPMC5776802 | biostudies-literature | 2018 Jan

REPOSITORIES: biostudies-literature

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Computation of extreme heat waves in climate models using a large deviation algorithm.

Ragone Francesco F   Wouters Jeroen J   Bouchet Freddy F  

Proceedings of the National Academy of Sciences of the United States of America 20171219 1


Studying extreme events and how they evolve in a changing climate is one of the most important current scientific challenges. Starting from complex climate models, a key difficulty is to be able to run long enough simulations to observe those extremely rare events. In physics, chemistry, and biology, rare event algorithms have recently been developed to compute probabilities of events that cannot be observed in direct numerical simulations. Here we propose such an algorithm, specifically designe  ...[more]

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