J. Palouš scite author profile

Abstract. We present results of a method for an automatic search for H  shells in 3D data cubes and apply it to the Leiden-Dwingeloo H  survey of the northern Milky Way. In the 2nd Galactic quadrant, where identifications of structures are not substantially influenced by overlapping, we find nearly 300 structures. The Galactic distribution of shells has an exponential profile in the radial direction with a scale length of σ gsh = 3 kpc. In the z direction, one half of the shells are found at distances smaller than 500 pc. We also calculate the energies necessary to create the shells: there are several structures with energies greater than 10E SN but only one with an energy exceeding 100E SN . Their size distribution, corrected for distance effects, is approximated by a power-law with an index α = 2.1. Our identifications provide a lower limit to the filling factor of shells in the outer Milky Way: f 2D = 0.4 and f 3D = 0.05.

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Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100^*

Jáchym

Sun

Kenney

et al. 2017

ApJ

119

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We have discovered large amounts of molecular gas, as traced by CO emission, in the ram pressure stripped gas tail of the Coma cluster galaxy D100 (GMP 2910), out to large distances of about 50 kpc. D100 has a 60 kpc long, strikingly narrow tail which is bright in X-rays and Hα. Our observations with the IRAM 30m telescope reveal in total ∼ 10 9 M ⊙ of H 2 (assuming the standard CO-to-H 2 conversion) in several regions along the tail, thus indicating that molecular gas may dominate its mass. Along the tail we measure a smooth gradient in the radial velocity of the CO emission that is offset to lower values from the more diffuse Hα gas velocities. Such a dynamic separation of phases may be due to their differential acceleration by ram pressure. D100 is likely being stripped at a high orbital velocity 2200 km s −1 by (nearly) peak ram pressure. Combined effects of ICM viscosity and magnetic fields may be important for the evolution of the stripped ISM. We propose D100 has reached a continuous mode of stripping of dense gas remaining in its nuclear region. D100 is the second known case of an abundant molecular stripped-gas tail, suggesting that conditions in the ICM at the centers of galaxy clusters may be favorable for molecularization. From comparison with other galaxies, we find there is a good correlation between the CO flux and the Hα surface brightness in ram pressure stripped gas tails, over ∼ 2 dex.

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Hydrodynamics of the Matter Reinserted within Super Stellar Clusters

Tenorio-Tagle¹,

Wünsch²,

Silich³

et al. 2007

ApJ

101

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We present semianalytic and numerical models that take into account the effect of radiative cooling on the hydrodynamics of the matter reinserted by strong stellar winds and supernovae within the volume occupied by young, massive, and compact super stellar clusters. We first corroborate the location of the threshold line in the plane of mechanical energy input rate versus cluster size found by Silich et al. This line separates clusters that are able to drive a quasi-adiabatic or strongly radiative wind from those in which catastrophic cooling occurs within the cluster volume. Then we show that clusters above the threshold line exhibit a bimodal behavior in which the central, densest zones cool rapidly and accumulate the injected matter to eventually feed further generations of star formation, while the outer zones are still able to drive a stationary wind. The results are presented as a series of universal dimensionless diagrams, from which one can infer the sizes of the two zones, the fraction of the deposited mass that goes into each, and the mechanical luminosity of the resultant winds for clusters of all sizes and energy input rates, regardless the assumed adiabatic terminal speed (V A;1 ).

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ALMA Unveils Widespread Molecular Gas Clumps in the Ram Pressure Stripped Tail of the Norma Jellyfish Galaxy

Jáchym

Kenney

Sun

et al. 2019

ApJ

109

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We present the first high-resolution map of the cold molecular gas distribution, as traced by CO(2-1) emission with ALMA, in a prominent ram pressure stripped tail. The Norma cluster galaxy ESO 137-001 is undergoing a strong interaction with the surrounding intra-cluster medium and is one of the nearest jellyfish galaxies with a long multi-phase tail. We have mapped the full extent of the tail at 1 ′′ (350 pc) angular resolution and found a rich distribution of mostly compact CO regions extending to nearly 60 kpc in length and 25 kpc in width. In total about 10 9 M ⊙ of molecular gas was detected. The CO features are found predominantly at the heads of numerous small-scale (∼ 1.5 kpc) fireballs (i.e., star-forming clouds with linear streams of young stars extending toward the galaxy) but also of largescale (∼ 8 kpc) super-fireballs, and double-sided fireballs that have additional diffuse ionized gas tails extending in the direction opposite to the stellar tails. The new data help to shed light on the origin of the molecular tail -CO filaments oriented in the direction of the tail with only diffuse associated Hα emission are likely young molecular features formed in situ, whereas other large CO features tilted with respect to the tail may have originated from the densest gas complexes that were pushed gradually away from the disk. The ALMA observations of ESO 137-001, together with observations from HST, Chandra and VLT/MUSE, offer the most complete view of a spectacular ram pressure stripped tail to date.

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Continuous stellar mass-loss inN-body models of galaxies

Jungwiert

Combes

Palouš

2001

A&A

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Abstract.We present an N-body computer code -aimed at studies of galactic dynamics -with a CPU-efficient algorithm for a continuous (i.e. time-dependent) stellar mass-loss. First, we summarize available data on stellar mass-loss and derive the long-term (20 Gyr) dependence of mass-loss rate of a coeval stellar population. We then implement it through a simple parametric form into a particle-mesh code with stellar and gaseous particles. We perform several tests of the algorithm reliability and show an illustrative application: a 2D simulation of a disk galaxy, starting as purely stellar but evolving as two-component due to gradual mass-loss from initial stars and to star formation. In a subsequent paper we will use the code to study changes that are induced in galactic disks by the continuous gas recycling compared to the instantaneous recycling approximation, especially the changes in star formation rate and radial inflow of matter.

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J. Palouš

H I shells in the outer Milky Way

Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100^*

Hydrodynamics of the Matter Reinserted within Super Stellar Clusters

ALMA Unveils Widespread Molecular Gas Clumps in the Ram Pressure Stripped Tail of the Norma Jellyfish Galaxy

Continuous stellar mass-loss inN-body models of galaxies

Contact Info

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Resources

About

J. Palouš

H I shells in the outer Milky Way

Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100*

Hydrodynamics of the Matter Reinserted within Super Stellar Clusters

ALMA Unveils Widespread Molecular Gas Clumps in the Ram Pressure Stripped Tail of the Norma Jellyfish Galaxy

Continuous stellar mass-loss inN-body models of galaxies

Contact Info

Product

Resources

About

Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100^*