Ram pressure stripping in clusters: Gravity can bind the ISM but not the CGM
2024
Online
report
We explore the survival of a galaxy's circumgalactic medium (CGM) as it experiences ram pressure stripping (RPS) moving through the intracluster medium (ICM). For a satellite galaxy, the CGM is often assumed to be entirely stripped/evaporated, an assumption that may not always be justified. We carry out 3D-hydrodynamics simulations of RPS of the interstellar medium (ISM) and the CGM of a galaxy with mass and size comparable to the jellyfish galaxy JO201. We find that the CGM can survive long at cluster outskirts ($\gtrsim 2$ Gyr). However, at smaller cluster-centric distances, 90\% of the CGM mass is lost within $\sim 500$ Myr. Our simulations suggest that the gravitational restoring force on the CGM is mostly negligible and the CGM-ICM interaction is analogous to 'cloud-wind interaction'. The CGM stripping timescale depends not on the ram pressure but on $\chi$, the ratio of CGM to ICM density. Two distinct regimes emerge for CGM stripping: the $\chi >1$ regime, which is the well-known 'cloud-crushing' problem, and the $\chi < 1$ regime, which we refer to as the (relatively unexplored) 'bubble-drag' problem. The cloud-crushing regime ($\chi >1$) suggests a CGM stripping timescale proportional to the drag time $t_{\rm drag} \sim \chi R/v_{\rm rel}$ ($R$ is the CGM size, $v_{\rm rel}$ is the relative velocity). The bubble-drag regime ($\chi < 1$) is qualitatively different and gives a shorter stripping timescale comparable to the crossing time -- $t_{\rm drag} \sim R/v_{\rm rel}$, independent of $\chi$. The ISM stripping criterion unlike the CGM, still depends on the ram pressure $\rho_{\rm ICM} v_{\rm rel}^2$ (the classic Gunn and Gott 1972 condition). The stripped tails of satellites contain contributions from both the disk and its trailing CGM. Overall, we identify novel physical mechanisms and previously unexplored stripping regimes.
Comment: 23 pages, 15 figures; resubmitted to MNRAS after addressing the referee comments
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Ram pressure stripping in clusters: Gravity can bind the ISM but not the CGM
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Autor/in / Beteiligte Person: | Ghosh, Ritali ; Dutta, Alankar ; Sharma, Prateek |
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Veröffentlichung: | 2024 |
Medientyp: | report |
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