Tracing Ram-Pressure Stripping with Warm Molecular Hydrogen Emission

Abstract

We use the Spitzer Infrared Spectrograph (IRS) to study four infalling cluster galaxies with signatures of on-going ram-pressure stripping. H2 emission is detected in all four; two show extraplanar H2 emission. The emission usually has a warm (T 115 - 160K) and a hot (T 400 - 600K) component that is approximately two orders of magnitude less massive than the warm one. The warm component column densities are typically 1019 - 1020 cm-2 with masses of 106 - 108 M. The warm H2 is anomalously bright compared with normal star-forming galaxies and therefore may be excited by ram-pressure. In the case of CGCG 97-073, the H2 is offset from the majority of star formation along the direction of the galaxy's motion in the cluster, suggesting it is forming in the ram-pressure wake of the galaxy. Another galaxy, NGC 4522, exhibits a warm H2 tail approximately 4 kpc in length. These results support the hypothesis that H2 within these galaxies is shock-heated from the interaction with the intracluster medium. Stripping of dust is also a common feature of the galaxies. For NGC 4522, where the distribution of dust at 8 μm is well resolved, knots and ripples demonstrate the turbulent nature of the stripping process. The Hα and 24 μm luminosities show that most of the galaxies have star formation rates comparable to similar mass counterparts in the field. Finally, we suggest a possible evolutionary sequence primarily related to the strength of ram-pressure a galaxy experiences to explain the varied results observed in our sample.