The wake of a transversely oscillating circular cylinder in a flowing soap film at low Reynolds number

Abstract: An inclined gravity-driven soap film channel was used to study the wake patterns formed behind a transversely oscillating cylinder at $Re =235 \pm 14$. The natural frequency of vortex shedding from a stationary cylinder, $f_{\text{St}}$, was used to identify the oscillation frequencies of interest. The (dimensionless) frequency, $f^*=f/{f_{\text{St}}}$, and amplitude, $A^*=A/D$, of the cylinder's motion was varied over a large portion of the fundamental synchronization region (i.e., for $f^* \approx 1$), and a map' of wake patterns was constructed in ${(f^*, A^*)}$ space. Lock-on between the frequency of the cylinder's motion and the dominant frequency of the resulting vortex wake was observed for a large range of this parameter space, predominantly manifested as synchronized2S' and 2P' wake modes. SynchronizedP+S', 2T', andtransitional' wakes were also found in smaller regions of parameter space. Unsynchronized coalescing' andperturbed von~\karman' wakes were observed as the oscillation frequency became sufficiently different from $f_{\text_{St}}$. The wake patterns and vortex formation processes found in this study, particularly for the 2P mode wakes, are more similar to those observed by \cite{Williamson1988} in three-dimensional experiments than those found by \cite{Leontini2006} in two-dimensional simulations, despite the physical constraint from the soap film that prevents three-dimensional effects in the wake.