linking the Galactic bulge to the high-z Universe
http://www.spacetelescope.org/static/archives/releases/science_papers/heic1617/heic1617a.pdf
However you need Higgs field polarisation ( Herbig Haro effect) for new star formation, which is supposed to be present in between two ( galaxy) merger central BHs. as observed in SDSS J1531-3414, see:
http://bigbang-entanglement.blogspot.nl/…/the-magic-of-game…
Now we observe Terzan 5 as two merger BHs of Globular dwarf galaxies.
The TWO approaching central black holes of both merger (dwarf) galaxies form a new High mass Herbig Haro system to start superfast and heavy star formation in between, before these BHs merge and resume eating their stellar babies going on to a Big Crunch.
As a consquence, the new stars should be much more heavy than the ( red) old stars which seems to be indeed the case:
Quote: The ages of the two populations indicate that the star formation process in Terzan 5 was not continuous, but was dominated by two distinct bursts of star formation. "This requires the Terzan 5 ancestor to have large amounts of gas for a second generation of stars and to be quite massive. At least 100 million times the mass of the Sun," explains Davide Massari,""
My conclusion ( Quantum FFF Theory): Terzan 5 is a former merger of 2 or even 3 globular clusters, with new heavy star formation during the merger stadium in between the two central black holes acting as a Herbig Haro system.
see:
The age of the young bulge-like population in the stellar system Terzan 5:
linking the Galactic bulge to the high-z Universe
http://www.spacetelescope.org/static/archives/releases/science_papers/heic1617/heic1617a.pdf