-
Steven Ndung'u, et al., 2023_12_01,
Advances on the morphological classification of radio galaxies: A review,
17 pages.
- Robert A. Crain, Freeke van de Voort, 2023_09_29,
Hydrodynamical simulations of
the galaxy population: enduring successes and outstanding challenges, 46 pages.
- Peter Laursen, 2023_09_05_sep05,
Galaxy formation from a timescale perspective, 13 pages.
- David H. Weinberg, 2023_06_15_jun15,
New Dimensions of Galactic Chemical Evolution, 10 pages.
- Moncy V. John & K. Babu Joseph, 2023_06_05_jun05,
Cosmological significance of the early bright galaxies observed with JWST, 10 pages:
- Vadim V. Bobylev & Anisa T. Bajkov, 2023_05_28_may28,
Review of current estimates of the Galaxy mass: They mean
Milky Way
mass.
- Federico Lelli, 2023, 2023_05_25_may25,
Mass models of disk galaxies from gas dynamics, 10 pages:
- S. Walch, 2023_02_28_feb28?,
Stellar feedback from sub-parsec to galactic scales, 7 pages:
- Francoise Combes, 2023_02_24_feb24,
Galactic bulge-black hole co-evolution, feeding and feedback of AGNs, 39 pages
- Francoise Combes, 2023_02_24_feb24,
Spiral Galaxies, 40 pages:
- Martin G. H. Krause,
2023_02_01_feb01, Jet Feedback in Star-Forming Galaxies, 15 pages:
- Marc Huertas-Company & François Lanuss, 2023_01_31_jaa
n31,
The DAWES review 10: The impact of deep learning for the analysis of galaxy surveys, 62 pages:
-
Manuel Aravena, 2023__01__31_jan31?, The cold gas supply through cosmic time: insights
on the galaxy assembly at early epochs, 9 pages:
- Elisabete da Cunha, 2022_11_02_nov02,
The dust properties of star-forming galaxies in the first billion years, 10 pages:
- A. Boselli, et al. 2021_09_28_sep28,
Ram Pressure Stripping in High-Density Environments, 100 pages:
-
Andrew B. Newman, 2021_01_01_jan01?,
Recent insights into massive galaxy formation from observing structural
evolution (Review), 8 pages:
- A. Cimatti et al.
2020_01_01_jan01,
Introduction to Galaxy Formation and Evolution: From Primordial Gas to Present-Day Galaxies,
571+14 pages:
Also see
Cimatti:
Introduction to Galaxy Formation and Evolution: From Primordial Gas to Present-Day Galaxies (2020),
$57.59
- Hannu Karttunen et al.
2017_01_01_jan01,
Fundamental Astronomy, 548 pages: A online
textbook.
See p. 91ff for
surface brightness,
but maybe not more than in
Cimatti (2020).
- Simon Driver et al.,
2016_02_01_feb01,
Galaxy And Mass Assembly (GAMA): Panchromatic Data Release (far-UV-far-IR)
and the low-z energy budget, 32 pages:
The pdf is better than the arXiv version
Driver et al. (2016).
See p. 21, F. 23 for the comparable image shown
by shown
Cimatti (2020), p. 35.
- L. Ciotti1 & G. Bertin, 1999_11_05_nov05,
Analytical properties of the R^(1/m) luminosity law, 10 pages:
Analytic details of the
Sersic profile.
This paper does NOT treat why the
Sersic profile
is physically plausible.
Maybe it is just an empirical formula
that works rather well.
- Paul Schechter, 1976,
An Analytic Expression for the Luminosity Function for Galaxies:
There is some theoretical motivation, but primarily the
Schechter
luminosity function (Schechter function) is an empirical fit.
- Charlotte E. Moore
& Paul. W. Merril, 1968,
Partial Grotrian Diagrams of Astrophysical Interest, 80 pages:
Very dated, but still very useful for quick reference.
See also another pdf version
moore.pdf
which is actually more easily accessed and downloaded.
- Gerard de Vaucouleurs,
1948, Recerches sur Nebuleuses Extragalactique, 43 pages:
The abstract gives the de Vaucouleurs surface bright
surface brightness profile
in logarithmic form that
was later generalized to the
Sersic profile.