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3. GASP. III. JO36: A Case of Multiple Environmental Effects at Play?

Author

Jacopo Fritz, Alessia Moretti, Marco Gullieuszik, Bianca Poggianti, Gustavo Bruzual, Benedetta Vulcani, Fabrizio Nicastro, Yara Jaffé, Bernardo Cervantes Sodi, Daniela Bettoni, Andrea Biviano, Giovanni Fasano, Stéphane Charlot, Callum Bellhouse, and George Hau

Subjects
SPATIAL distribution (Quantum optics), STAR formation, IONIZED gases, KINEMATICS, STARBURSTS
Abstract

The so-called jellyfish galaxies are objects exhibiting disturbed morphology, mostly in the form of tails of gas stripped from the main body of the galaxy. Several works have strongly suggested ram pressure stripping to be the mechanism driving this phenomenon. Here, we focus on one of these objects, drawn from a sample of optically selected jellyfish galaxies, and use it to validate sinopsis, the spectral fitting code that will be used for the analysis of the GASP (GAs Stripping Phenomena in galaxies with MUSE) survey, and study the spatial distribution and physical properties of the gas and stellar populations in this galaxy. We compare the model spectra to those obtained with gandalf, a code with similar features widely used to interpret the kinematics of stars and gas in galaxies from IFU data. We find that sinopsis can reproduce the pixel-by-pixel spectra of this galaxy at least as well as gandalf does, providing reliable estimates of the underlying stellar absorption to properly correct the nebular gas emission. Using these results, we find strong evidences of a double effect of ram pressure exerted by the intracluster medium onto the gas of the galaxy. A moderate burst of star formation, dating between 20 and 500 Myr ago and involving the outer parts of the galaxy more strongly than the inner regions, was likely induced by a first interaction of the galaxy with the intracluster medium. Stripping by ram pressure, plus probable gas depletion due to star formation, contributed to create a truncated ionized gas disk. The presence of an extended stellar tail on only one side of the disk points instead to another kind of process, likely gravitational interaction by a fly-by or a close encounter with another galaxy in the cluster. [ABSTRACT FROM AUTHOR]

Published
2017
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4. GASP. IV. A Muse View of Extreme Ram-pressure-stripping in the Plane of the Sky: The Case of Jellyfish Galaxy JO204.

Author

Marco Gullieuszik, Bianca M. Poggianti, Alessia Moretti, Jacopo Fritz, Yara L. Jaffé, George Hau, Jan C. Bischko, Callum Bellhouse, Daniela Bettoni, Giovanni Fasano, Benedetta Vulcani, Mauro D’Onofrio, and Andrea Biviano

Subjects
STRIPPING reaction (Nuclear physics), RAM pressure, GALAXY clusters, IONIZED gases, DISKS (Astrophysics), INTERSTELLAR medium
Abstract

In the context of the GAs Stripping Phenomena in galaxies with Muse (GASP) survey, we present the characterization of JO204, a jellyfish galaxy in A957, a relatively low-mass cluster with . This galaxy shows a tail of ionized gas that extends up to 30 kpc from the main body in the opposite direction of the cluster center. No gas emission is detected in the galaxy outer disk, suggesting that gas-stripping is proceeding outside-in. The stellar component is distributed as a regular disk galaxy; the stellar kinematics shows a symmetric rotation curve with a maximum radial velocity of 200 km s−1 out to 20 kpc from the galaxy center. The radial velocity of the gas component in the central part of the disk follows the distribution of the stellar component; the gas kinematics in the tail retains the rotation of the galaxy disk, indicating that JO204 is moving at high speed in the intracluster medium. Both the emission and radial-velocity maps of the gas and stellar components indicate ram-pressure as the most likely primary mechanism for gas-stripping, as expected given that JO204 is close to the cluster center and it is likely at the first infall in the cluster. The spatially resolved star formation history of JO204 provides evidence that the onset of ram-pressure-stripping occurred in the last 500 Myr, quenching the star formation activity in the outer disk, where the gas has been already completely stripped. Our conclusions are supported by a set of hydrodynamic simulations. [ABSTRACT FROM AUTHOR]

Published
2017
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5. GASP. I. Gas Stripping Phenomena in Galaxies with MUSE.

Author

Bianca M. Poggianti, Alessia Moretti, Marco Gullieuszik, Jacopo Fritz, Yara Jaffé, Daniela Bettoni, Giovanni Fasano, Callum Bellhouse, George Hau, Benedetta Vulcani, Andrea Biviano, Alessandro Omizzolo, Angela Paccagnella, Mauro D’Onofrio, Antonio Cava, Y.-K. Sheen, Warrick Couch, and Matt Owers

Subjects
INTEGRAL field spectroscopy, IONIZED gases, INTERSTELLAR medium, GALAXY formation, COLD gases
Abstract

GAs Stripping Phenomena in galaxies with MUSE (GASP) is a new integral-field spectroscopic survey with MUSE at the VLT aimed at studying gas removal processes in galaxies. We present an overview of the survey and show a first example of a galaxy undergoing strong gas stripping. GASP is obtaining deep MUSE data for 114 galaxies at z = 0.04–0.07 with stellar masses in the range in different environments (galaxy clusters and groups over more than four orders of magnitude in halo mass). GASP targets galaxies with optical signatures of unilateral debris or tails reminiscent of gas-stripping processes (“jellyfish galaxies”), as well as a control sample of disk galaxies with no morphological anomalies. GASP is the only existing integral field unit (IFU) survey covering both the main galaxy body and the outskirts and surroundings, where the IFU data can reveal the presence and origin of the outer gas. To demonstrate GASP’s ability to probe the physics of gas and stars, we show the complete analysis of a textbook case of a jellyfish galaxy, JO206. This is a massive galaxy () in a low-mass cluster () at a small projected clustercentric radius and a high relative velocity, with ≥90 kpc long tentacles of ionized gas stripped away by ram pressure. We present the spatially resolved kinematics and physical properties of the gas and stars and depict the evolutionary history of this galaxy. [ABSTRACT FROM AUTHOR]

Published
2017
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