%0 Generic %1 mancillas2019molecular %A Mancillas, Brisa %A Combes, Francoise %A Duc, Pierre-Alain %D 2019 %K merger molecular-gas shell %T The molecular gas content of shell galaxies %U http://arxiv.org/abs/1905.11356 %X Shells are fine stellar structures identified by their arc-like shapes present around a galaxy and currently thought to be vestiges of galaxy interactions and/or mergers. The study of their number, geometry, stellar populations and gas content can help to derive the interaction/merger history of a galaxy. Numerical simulations have proposed a mechanism of shell formation through phase wrapping during a radial minor merger. Alternatively, there could be barely a space wrapping, when particles have not made any radial oscillation yet, but are bound by their radial expansion, or produce an edge-brightened feature. These can be distinguished, because they are expected to keep a high radial velocity. While shells are first a stellar phenomenon, HI and CO observations have revealed neutral gas associated with shells. Some of the gas, the most diffuse and dissipative, is expected to be driven quickly to the center if it is travelling on nearly radial orbits. Molecular gas, distributed in dense clumps, is less dissipative, and may be associated to shells, and determine their velocity, too difficult to obtain from stars. We present here a search for molecular gas in nine shell galaxies with the IRAM-30m telescope. Six of them are detected in their galaxy center, and in three galaxies, we clearly detect molecular gas in shells. The derived amount of molecular gas varies from 1.5 10$^8$ to 3.4 10$^9$ M$_ødot$ in the shells. For two of them (Arp~10 and NGC~3656), the shells are characteristic of an oblate system. Their velocity is nearly systemic, and we conclude that these shells are phase-wrapped. For the third one (NGC~3934) the shells appear to participate to the rotation, and follow up with higher spatial resolution is required to conclude.

@misc{mancillas2019molecular, abstract = {Shells are fine stellar structures identified by their arc-like shapes present around a galaxy and currently thought to be vestiges of galaxy interactions and/or mergers. The study of their number, geometry, stellar populations and gas content can help to derive the interaction/merger history of a galaxy. Numerical simulations have proposed a mechanism of shell formation through phase wrapping during a radial minor merger. Alternatively, there could be barely a space wrapping, when particles have not made any radial oscillation yet, but are bound by their radial expansion, or produce an edge-brightened feature. These can be distinguished, because they are expected to keep a high radial velocity. While shells are first a stellar phenomenon, HI and CO observations have revealed neutral gas associated with shells. Some of the gas, the most diffuse and dissipative, is expected to be driven quickly to the center if it is travelling on nearly radial orbits. Molecular gas, distributed in dense clumps, is less dissipative, and may be associated to shells, and determine their velocity, too difficult to obtain from stars. We present here a search for molecular gas in nine shell galaxies with the IRAM-30m telescope. Six of them are detected in their galaxy center, and in three galaxies, we clearly detect molecular gas in shells. The derived amount of molecular gas varies from 1.5 10$^8$ to 3.4 10$^9$ M$_\odot$ in the shells. For two of them (Arp~10 and NGC~3656), the shells are characteristic of an oblate system. Their velocity is nearly systemic, and we conclude that these shells are phase-wrapped. For the third one (NGC~3934) the shells appear to participate to the rotation, and follow up with higher spatial resolution is required to conclude.}, added-at = {2019-05-28T13:01:33.000+0200}, author = {Mancillas, Brisa and Combes, Francoise and Duc, Pierre-Alain}, biburl = {https://www.bibsonomy.org/bibtex/2112324f279b433d919c9e6362f1b876a/heh15}, description = {The molecular gas content of shell galaxies}, interhash = {b2803fef45151f0df93114e085464ff5}, intrahash = {112324f279b433d919c9e6362f1b876a}, keywords = {merger molecular-gas shell}, note = {cite arxiv:1905.11356Comment: 13 pages. 25 figures. 3 Tables. 1 Appendix}, timestamp = {2019-05-28T13:01:33.000+0200}, title = {The molecular gas content of shell galaxies}, url = {http://arxiv.org/abs/1905.11356}, year = 2019 }