NGC 6388 explained

NGC 6388 is a globular cluster of stars located in the southern constellation of Scorpius. The cluster was discovered by Scottish astronomer James Dunlop on May 13, 1826 using a reflector telescope. It was later determined to be a globular cluster by English astronomer John Herschel, who was able to resolve it into individual stars. NGC 6388 is located at a distance of approximately 10.9kpc from the Sun. Due to its apparent visual magnitude of +6.8, binoculars or a small telescope are required to view it.

This cluster has an age of and a core radius of . The central velocity dispersion is, and the central density is ·pc⁻³. With an estimated mass of, it is one of the most massive globular clusters in the Milky Way. Multiple stellar populations have been detected. In the past it has been proposed that this cluster was accreted into the Milky Way galaxy. However, the abundance of stellar elements from a large sample of cluster members strongly indicate it was formed within the galaxy.

The Hertzsprung–Russell diagram for NGC 6388 shows that the main-sequence turnoff for this cluster is similar to that of the cluster 47 Tucanae. This suggests that the bulk of the stellar components have a similar age and chemical abundances between the two clusters. However, the RR Lyrae variables and hotter members of the horizontal branch in NGC 6388 appear overluminous. It has been suggested that this extended horizontal branch may be the result of a central intermediate mass black hole (IMBH). X-ray observations of the cluster rule out an accreting IMBH, but not a quiescent black hole. The stellar density and radial profiles of velocity dispersion rule out an IMBH with a mass greater than about .

The cluster contains a population of blue straggler stars (BSS), which are the result of stellar mergers. The radial distribution of this population is high near the core, decreasing at intermediate distance before increasing again at larger radii. This bimodal distribution is similar to that in other globulars. However, the scale of the population at intermediate distances suggests that dynamic friction in NGC 6388 is less efficient at segregating BSS toward the core.

Examination of NGC 6388 by the Chandra observatory show 61 X-ray sources within a half-mass radius of the core, with all having luminosities above . Five of these appear to be X-ray binaries.

Further reading

• Metallicity of the globular cluster NGC 6388 based on high-resolution spectra of more than 160 giant stars . Carretta . Eugenio . Bragaglia . Angela . Astronomy & Astrophysics . 659 . id. A122 . March 2022 . 10.1051/0004-6361/202142563 . 2111.12721 . 2022A&A...659A.122C .
• The Intriguing Stellar Populations in the Globular Clusters NGC 6388 and NGC 6441 . 1 . Bellini . A. . Piotto . G. . Milone . A. P. . King . I. R. . Renzini . A. . Cassisi . S. . Anderson . J. . Bedin . L. R. . Nardiello . D. . Pietrinferni . A. . Sarajedini . A. . The Astrophysical Journal . 765 . 1 . id. 32 . March 2013 . 10.1088/0004-637X/765/1/32 . 1301.2822 . 2013ApJ...765...32B .
• Search for dark matter signals with Fermi-LAT observation of globular clusters NGC 6388 and M 15 . 1 . Feng . Lei . Yuan . Qiang . Yin . Peng-Fei . Bi . Xiao-Jun . Li . Mingzhe . Journal of Cosmology and Astroparticle Physics . 04 . id. 030 . April 2012 . 10.1088/1475-7516/2012/04/030 . 1112.2438 . 2012JCAP...04..030F .
• Heavy element abundances in low gravity globular cluster stars: NGC 362 and NGC 6388 . Worley . C. C. . Cottrell . P. L. . Monthly Notices of the Royal Astronomical Society . 406 . 4 . 2504–2520 . August 2010 . 10.1111/j.1365-2966.2010.16837.x . 2010MNRAS.406.2504W .
• XMM-Newton and Chandra observations of the globular cluster NGC 6388 . 1 . Nucita . A. A. . de Paolis . F. . Ingrosso . G. . Carpano . S. . Guainazzi . M. . Astronomy and Astrophysics . 478 . 3 . 763–768 . February 2008 . 10.1051/0004-6361:20078850 . 2008A&A...478..763N .
• Blue straggler stars in the unusual globular cluster NGC 6388 . 1 . Dalessandro . E. . Lanzoni . B. . Ferraro . F. R. . Rood . R. T. . Milone . A. . Piotto . G. . Valenti . E. . Memorie della Società Astronomica Italiana . 79 . 698 . 2008 . 2008MmSAI..79..698D .
• The Surface Density Profile of NGC 6388: A Good Candidate for Harboring an Intermediate-Mass Black Hole . Lanzoni . B. . Dalessandro . E. . Ferraro . F. R. . Miocchi . P. . Valenti . E. . Rood . R. T. . 1 . The Astrophysical Journal . 668 . 2 . L139–L142 . October 2007 . 10.1086/522927 . 0709.0119 . 2007ApJ...668L.139L .
• The peculiar horizontal branch morphology of the Galactic globular clusters NGC 6388 and NGC 6441: new insights from UV observations . Busso . G. . Cassisi . S. . Piotto . G. . Castellani . M. . Romaniello . M. . Catelan . M. . Djorgovski . S. G. . Recio Blanco . A. . Renzini . A. . Rich . M. R. . Sweigart . A. V. . Zoccali . M. . 1 . Astronomy and Astrophysics . 474 . 1 . October 2007 . 105–119 . 10.1051/0004-6361:20077806 . 0708.1736 . 2007A&A...474..105B .
• Washington Photometry of the Red Giant Branch in NGC 6388 . Hughes . Joanne . Wallerstein . George . Covarrubias . Ricardo . Hays . Naydene . 1 . The Astronomical Journal . 134 . 1 . 229–240 . July 2007 . 10.1086/518559 . 2007AJ....134..229H .
• NGC 6388: Chemical Composition of Its Eight Cool Giants . 1 . Wallerstein . G. . George Wallerstein . Kovtyukh . V. V. . Andrievsky . S. M. . The Astronomical Journal . 133 . 4 . 1373–1382 . April 2007 . 10.1086/510905 . 2007AJ....133.1373W .
• Image-Subtraction Photometry of Variable Stars in the Globular Clusters NGC 6388 and NGC 6441 . 1 . Corwin . T. Michael . Sumerel . Andrew N. . Pritzl . Barton J. . Smith . Horace A. . Catelan . M. . Sweigart . Allen V. . Stetson . Peter B. . The Astronomical Journal . 132 . 3 . 1014–1022 . September 2006 . 10.1086/505745 . astro-ph/0605569 . 2006AJ....132.1014C .
• Variable Stars in the Unusual, Metal-rich Globular Cluster NGC 6388 . Pritzl . Barton J. . Smith . Horace A. . Catelan . Márcio . Sweigart . Allen V. . 1 . The Astronomical Journal . 124 . 2 . 949–976 . August 2002 . 10.1086/341381 . astro-ph/0204296 . 2002AJ....124..949P .