E. Barsy scite author profile

E. Barsy

2Publications

2Citation Statements Received

55Citation Statements Given

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Eötvös Loránd University

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An experimental study of the Atlantic variability on interdecadal timescales

Vincze

Jánosi

Barsy

et al. 2012

Nonlin. Processes Geophys.

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Abstract.A series of laboratory experiments has been carried out to model the basic dynamics of the multidecadal variability observed in North Atlantic sea surface temperature (SST) records. According to the minimal numerical sector model introduced by te Raa and Dijkstra (2002), the three key components to excite such a low-frequency variability are rotation, meridional temperature gradient and additive thermal noise in the surface heat forcing. If these components are present, periodic perturbations of the overturning background flow are excited, leading to thermal Rossby mode like propagation of anomalous patches in the SST field. Our tabletop scale setup was built to capture this phenomenon, and to test whether the aforementioned three components are indeed sufficient to generate a low-frequency variability in the system. The results are compared to those of the numerical models, as well as to oceanic SST reanalysis records. To the best of our knowledge, the experiment described here is the very first to investigate the dynamics of the North Atlantic multidecadal variability in a laboratory-scale setup.

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The effect of a localized geothermal heat source on deep water formation

Vincze

Várai

Barsy

et al. 2011

Nonlin. Processes Geophys.

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Abstract. In a simplified two-dimensional model of a buoyancy-driven overturning circulation, we numerically study the response of the flow to a small localized heat source at the bottom. The flow is driven by differential thermal forcing applied along the top surface boundary. We evaluate the steady state solutions versus the temperature difference between the two ends of the water surface in terms of different characteristic parameters that properly describe the transition from a weak upper-layer convection state to a robust fulldepth deep convection. We conclude that a small additional bottom heat flux underneath the "cold" end of the basin is able to initiate full-depth convection even when the surface heat forcing alone is not sufficient to maintain this state.

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E. Barsy

An experimental study of the Atlantic variability on interdecadal timescales

The effect of a localized geothermal heat source on deep water formation

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