Bahcall, J. N. 1984c, The distribution of stars perpendicular to galactic disk, ApJ, 276, 156
Bahcall, J. N. 1987, Dark matter in the galactic disk, in IAU Symposium, Vol. 117, Dark matter in the universe, ed. J. Kormendy & G. R. Knapp, 17
Bahcall, J. N. & Casertano, S. 1986, Kinematics and density of the Galactic spheroid, ApJ, 308, 347
Bahcall, J. N., Hut, P., & Tremaine, S. 1985, Maximum mass of objects that constitute unseen disk material, ApJ, 290, 15
Bahcall, J. N. & Soneira, R. M. 1980, The universe at faint magnitudes. I - Models for the galaxy and the predicted star counts, ApJS, 44, 73
Bahcall, J. N. & Soneira, R. M. 1984, Comparisons of a standard galaxy model with stellar observations in five fields, ApJS, 55, 67
Bahcall, J. N., Soneira, R. M., & Schmidt, M. 1983, The galactic spheroid, ApJ, 265, 730
Bahcall, N. A. & Soneira, R. M. 1983, The spatial correlation function of rich clusters of galaxies, ApJ, 270, 20
Bardeen, J. M., Bond, J. R., Kaiser, N., & Szalay, A. S. 1986, The statistics of peaks of Gaussian random fields, ApJ, 304, 15
Baryshev, Y. V., Chernin, A. D., & Teerikorpi, P. 2001, The cold local Hubble flow as a signature of dark energy, A&A, 378, 729
Bekenstein, J. D. 2004, Relativistic gravitation theory for the modified Newtonian dynamics paradigm, Phys. Rev. D, 70, 083509
Bennett, C. L., Banday, A. J., Gorski, K. M., et al. 1996, Four-Year COBE DMR Cosmic Microwave Background Observations: Maps and Basic Results, ApJ, 464, L1 Bennett, C. L., Halpern, M., Hinshaw, G., et al. 2003, First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Preliminary Maps and Basic Results, ApJS, 148, 1
Binney, J. & Tremaine, S. 1987, Galactic dynamics (Princeton Univ. Press) Bisnovatyi-Kogan, G. S. & Novikov, I. D. 1980, Cosmology with a Nonzero Neutrino Rest Mass, Soviet Astr.-AJ, 24, 516
Blanchard, A., Douspis, M., Rowan-Robinson, M., & Sarkar, S. 2003, An alternative to the cosmological “concordance model ”, A&A, 412, 35
Blumenthal, G. R., Faber, S. M., Primack, J. R., & Rees, M. J. 1984, Formation of galaxies and large-scale structure with cold dark matter, Nature, 311, 517 Blumenthal, G. R., Pagels, H., & Primack, J. R. 1982, Galaxy formation by dissipationless particles heavier than neutrinos, Nature, 299, 37
Bobrova, N. A. & Ozernoi, L. M. 1975, Expected distribution of ‘hidden’ mass in rich clusters of galaxies, Pis ma Astronomicheskii Zhurnal, 1, 8
Bok, B. J. 1981, The Milky Way Galaxy, Scientific American, 244, 92
Bond, J. R., Kofman, L., & Pogosyan, D. 1996, How filaments of galaxies are woven into the cosmic web, Nature, 380, 603
Bond, J. R., Szalay, A. S., & Turner, M. S. 1982, Formation of galaxies in a gravitino- dominated universe, Physical Review Letters, 48, 1636
Bondi, H. & Gold, T. 1948, The Steady-State Theory of the Expanding Universe, MNRAS, 108, 252
Bosma, A. 1978, The distribution and kinematics of neutral hydrogen in spiral galaxies of various morphological types, PhD thesis, Groningen Univ.
Brandt, J. C. 1960, On the Distribution of Mass in Galaxies. I. The Large-Scale Structure of Ordinary Spirals with Applications to M 31, ApJ, 131, 293
Brandt, J. C. & Scheer, L. S. 1965, A note on functions relating to galactic structure, AJ, 70, 471
Bringmann, T., Huang, X., Ibarra, A., Vogl, S., & Weniger, C. 2012, Fermi LAT search for internal bremsstrahlung signatures from dark matter annihilation, J. Cosmology Astropart. Phys., 7, 54
Broadhurst, T. J., Ellis, R. S., Koo, D. C., & Szalay, A. S. 1990, Large-scale distribution of galaxies at the Galactic poles, Nature, 343, 726
Brosche, P., Einasto, J., & Rümmel, U. 1974, Bibliography on the Structure of Galaxies, Veroeffentlichungen des Astronomischen Rechen-Instituts Heidelberg, 26, 1
Brueck, H. A., Coyne, G. V., & Longair, M. S., eds. 1982, Astrophysical cosmology; Proceedings of the Study Week on Cosmology and Fundamental Physics, Vatican City State, September 28-October 2, 1981
Bullock, J. S., Kolatt, T. S., Sigad, Y., et al. 2001, Profiles of dark haloes: evolution, scatter and environment, MNRAS, 321, 559
Burbidge, E. M. & Burbidge, G. R. 1959, Rotation and Internal Motions in NGC 5128, ApJ, 129, 271
Burbidge, E. M., Burbidge, G. R., Fowler, W. A., & Hoyle, F. 1957, Synthesis of the Elements in Stars, Reviews of Modern Physics, 29, 547
Burbidge, E. M., Burbidge, G. R., & Prendergast, K. H. 1959, The Rotation and Mass of NGC 2146, ApJ, 130, 739
Burbidge, G. 1975, On the masses and relative velocities of galaxies, ApJ, 196, L7
Calzetti, D., Giavalisco, M., Ruffini, R., Einasto, J., & Saar, E. 1987, The correlation function of galaxies in the direction of the Coma cluster, Ap&SS, 137, 101
Cen, R. & Ostriker, J. P. 1992, Galaxy formation and physical bias, ApJ, 399, L113
Cen, R. & Ostriker, J. P. 2000, Physical Bias of Galaxies from Large-Scale Hydrodynamic Simulations, ApJ, 538, 83
Centrella, J. & Melott, A. L. 1983, Three-dimensional simulation of large-scale structure in the universe, Nature, 305, 196
Chemin, L., de Blok, W. J. G., & Mamon, G. A. 2011, Improved Modeling of the Mass Distribution of Disk Galaxies by the Einasto Halo Model, AJ, 142, 109
Chernin, A., Einasto, I., & Saar, E. 1976, The role of diffuse matter in galactic coronas, Ap&SS, 39, 53
Chernin, A. D. 1976, Hidden mass and binding energy in systems of galaxies, in Energy and Physics, 239
Chernin, A. D. 1981, The rest mass of primordial neutrinos, and gravitational instability in the hot universe, AZh, 58, 25
Chernin, A. D. 2001, REVIEWS OF TOPICAL PROBLEMS: Cosmic vacuum, Physics Uspekhi, 44, 1099
Chernin, A. D. 2003, Cosmic vacuum and the ‘flatness problem’ in the concordant model, New Astronomy, 8, 79
Chernin, A. D. 2008, PHYSICS OF OUR DAYS: Dark energy and universal antigravitation, Physics Uspekhi, 51, 253
Chincarini, G. & Rood, H. J. 1972, Radial velocities of galaxies II, AJ, 77, 448
Chincarini, G. & Rood, H. J. 1975, Size of the Coma cluster, Nature, 257, 294
Chincarini, G. & Rood, H. J. 1976, The Coma supercluster — Analysis of Zwicky-Herzog cluster 16 in field 158, ApJ, 206, 30
Clowe, D., Bradač, M., Gonzalez, A. H., et al. 2006, A Direct Empirical Proof of the Existence of Dark Matter, ApJ, 648, L109
Colberg, J. M., Pearce, F., Foster, C., et al. 2008, The Aspen-Amsterdam void finder comparison project, MNRAS, 387, 933
Coles, P. & Chiang, L. 2000, Characterizing the nonlinear growth of large-scale structure in the Universe, Nature, 406, 376
Colless, M., Dalton, G., Maddox, S., et al. 2001, The 2dF Galaxy Redshift Survey: spectra and redshifts, MNRAS, 328, 1039
Creze, M., Chereul, E., Bienayme, O., & Pichon, C. 1998, The distribution of nearby stars in phase space mapped by Hipparcos. I-The potential well and local dynamical mass, A&A, 329, 920
Croton, D. J., Springel, V., White, S. D. M., et al. 2006, The many lives of active galactic nuclei: cooling flows, black holes and the luminosities and colours of galaxies, MNRAS, 365, 11
Davis, M., Efstathiou, G., Frenk, C. S., & White, S. D. M. 1985, The evolution of large-scale structure in a universe dominated by cold dark matter, ApJ, 292, 371
de Blok, W. J. G. 2010, The Core-Cusp Problem, Advances in Astronomy, 2010 de Blok, W. J. G., Walter, F., Brinks, E., et al. 2008, High-Resolution Rotation Curves and Galaxy Mass Models from THINGS, AJ, 136, 2648
de Lapparent, V., Geller, M. J., & Huchra, J. P. 1986, A slice of the universe, ApJ, 302, L1 de Sitter, W. 1917, Einstein’s theory of gravitation and its astronomical consequences. Third paper, MNRAS, 78, 3 de Vaucouleurs, G. 1953, Evidence for a local super-galaxy, AJ, 58, 30
de Vaucouleurs, G. 1970, The Case for a Hierarchical Cosmology, Science, 167, 1203 de Vaucouleurs, G. 1978, The extragalactic distance scale. IV - Distances of nearest groups and field galaxies from secondary indicators, ApJ, 224, 710
de Vaucouleurs, G. & de Vaucouleurs, A. 1964, Reference catalogue of bright galax
ies, eds. G. de Vaucouleurs & A. de Vaucouleurs
de Vaucouleurs, G., de Vaucouleurs, A., & Corwin, H. G. 1976, Second reference catalogue of bright galaxies (University of Texas Monographs in Astronomy, Austin: University of Texas Press)
Dekel, A. 1984, Superpancakes and the cluster correlation function, ApJ, 284, 445
Dekel, A. & Silk, J. 1986, The origin of dwarf galaxies, cold dark matter, and biased galaxy formation, ApJ, 303, 39
Dhar, B. K. & Williams, L. L. R. 2010, Surface mass density of the Einasto family of dark matter haloes: are they Sersic-like? MNRAS, 405, 340
Dhar, B. K. & Williams, L. L. R. 2011, Surface Brightness and Intrinsic Luminosity of Ellipticals, ArXiv:1112.3120
Di Matteo, T., Springel, V., & Hernquist, L. 2005, Energy input from quasars regulates the growth and activity of black holes and their host galaxies, Nature, 433, 604
Dicke, R. H., Peebles, P. J. E., Roll, P. G., & Wilkinson, D. T. 1965, Cosmic Black-Body Radiation, ApJ, 142, 414
Dimov, N. 1970, Preliminary Note on the Astronomical Satellite Kosmos 215, in IAU Symposium, Vol. 36, Ultraviolet Stellar Spectra and Related Ground-Based Observations, ed. R. Muller, L. Houziaux, & H. E. Butler, 138
Dolgov, A. D. 2002, Neutrinos in cosmology, Phys. Rep., 370, 333 Donato, F., Gentile, G., Salucci, P., et al. 2009, A constant dark matter halo surface density in galaxies, MNRAS, 397, 1169
Doroshkevich, A. G., Jõeveer, M., & Einasto, J. 1975, Conference: Hidden Mass in the Universe, AZh, 52, 1113
Doroshkevich, A. G., Kotok, E. V., Poliudov, A. N., et al. 1980, Two-dimensional simulation of the gravitational system dynamics and formation of the large-scale structure of the universe, MNRAS, 192, 321 Doroshkevich, A. G. & Novikov, I. D. 1964, Mean Density of Radiation in the Metagalaxy and Certain Problems in Relativistic Cosmology, Soviet Physics Doklady, 9, 111
Doroshkevich, A. G., Ryaben’kij, V. S., & Shandarin, S. F. 1973, Non-linear theory of development of potential perturbations, Astrofizika, 9, 257 Doroshkevich, A. G. & Shandarin, S. F. 1973, Formation and evolution of inhomogeneities in non-linear theory of gravitational instability, Astrofizika, 9, 549
Doroshkevich, A. G. & Shandarin, S. F. 1978, Statistical problems in the theory of galaxy formation, AZh, 55, 1144
Doroshkevich, A. G., Shandarin, S. F., & Saar, E. 1978, Spatial structure of protoclusters and the formation of galaxies, MNRAS, 184, 643
Doroshkevich, A. G., Sunyaev, R. A., & Zeldovich, I. B. 1974, The formation of galaxies in Friedmannian universes, in IAU Symposium, Vol. 63, Confrontation of Cosmological Theories with Observational Data, ed. M. S. Longair, 213
Dressler, A. 1980, Galaxy morphology in rich clusters — Implications for the formation and evolution of galaxies, ApJ, 236, 351
Eddington, A. S. 1914, Stellar Movement and the Structure of the Universe (London: McMillan and Co.)
Eddington, A. S. 1924, On the relation between the masses and luminosities of the stars, MNRAS, 84, 308
Eddington, A. S. 1926, The Internal Constitution of the Stars, ed. Eddington, A. S.
Eelsalu, H. 1959, The gradient of the gravitational acceleration perpendicular to the Galactic plane near the Sun, Tartu Astr. Obs. Publ., 33, 153
Efstathiou, G., Davis, M., White, S. D. M., & Frenk, C. S. 1985, Numerical techniques for large cosmological N-body simulations, ApJS, 57, 241
Efstathiou, G., Sutherland, W. J., & Maddox, S. J. 1990, The cosmological constant and cold dark matter, Nature, 348, 705
Eggen, O. J. 1950, Photoelectric Studies. I-Color-Luminosity Array for Members of the Hyades Cluster, ApJ, 111, 65
Eggen, O. J., Lynden-Bell, D., & Sandage, A. R. 1962, Evidence from the motions of old stars that the Galaxy collapsed, ApJ, 136, 748
Eggen, O. J. & Sandage, A. R. 1964, New photoelectric observations of stars in the old galactic cluster M67, ApJ, 140, 130
Einasto, J. 1952, The kinematical division of the main sequence into two parts, Tartu Astr. Obs. Publ., 32, 231
Einasto, J. 1955, On the kinematical structure of the main sequence, Tartu Astr. Obs. Publ., 32, 371
Einasto, J. 1961, On the asymmetric shift of centroids of star groups, Tartu Astr. Obs. Publ.,33, 371
Einasto, J. 1965, On the construction of a composite model for the Galaxy and on the determination of the system of Galactic parameters, Trudy Astrophys. Inst. Alma- Ata, 5, 87 (Tartu Astr. Obs. Teated 17)
Einasto, J. 1968a, On constructing models of stellar systems. II-The descriptive functions and parameters, Tartu Astr. Obs. Publ., 36, 357
Einasto, J. 1968b, On constructing models of stellar systems. IV-The power-polynomial model, Tartu Astr. Obs. Publ., 36, 396
Einasto, J. 1968c, On constructing models of stellar systems. V-The binomial model, Tartu Astr. Obs. Publ., 36, 414
Einasto, J. 1968d, On constructing models of stellar systems. VI-On the methods of model constructing, Tartu Astr. Obs. Publ., 36, 442
Einasto, J. 1969a, On Galactic Descriptive Functions, Astronomische Nachrichten, 291, 97
Einasto, J. 1969b, The Andromeda galaxy M 31: I-A preliminary model, Astrofizika, 5, 137
Einasto, J. 1970a, On the structure and evolution of the Galaxy, Tartu Astr. Obs. Teated, 26, 1
Einasto, J. 1970b, Structural and kinematical properties of populations of the Andromeda galaxy, Tartu Ast. Obs. Teated, 26, 23
Einasto, J. 1970c, The Andromeda galaxy M31. II-Hydrodynamical model. Theory, Astrofizika, 6, 149
Einasto, J. 1972a, Galactic models and stellar orbits, Tartu Astr. Obs. Teated, 40, 1
Einasto, J. 1972b, Structure and Evolution of Regular Galaxies, PhD thesis, Tartu University, Tartu
Einasto, J. 1972c, The Rate of Star Formation, Astrophys. Lett., 11, 195
Einasto, J. 1973, The correlation between kinematical properties and ages of stellar populations, Astronomicheskij Tsirkulyar, 790, 3
Einasto, J. 1974a, Galactic Models and Stellar Orbits (Invited Lecture), in Stars and the Milky Way System, ed. L. N. Mavridis, 291
Einasto, J. 1974b, The correlation between kinematical properties and ages of stellar populations, in Kinematics and Ages of Stars Near the Sun, ed. L. Perek, 419 Einasto, J. 1975, “Hidden” mass in galaxies, Zemlia i Vselennaia, 3, 32
Einasto, J. 1978, The Scatter in Mass-To-Luminosity Ratios, in IAU Symposium, Vol. 79, Large Scale Structures in the Universe, ed. M. S. Longair & J. Einasto, 96
Einasto, J. 2001a, Dark Matter and Large Scale Structure, in Astronomical Society of the Pacific Conference Series, Vol. 252, Historical Development of Modern Cosmology, ed. V. J. Martínez, V. Trimble, & M. J. Pons-Bordería, 85
Einasto, J. 2001b, Large scale structure, New Astronomy Review, 45, 355 Einasto, J. 2005, Dark Matter: Early Considerations, in Frontiers of Cosmology, ed. A. Blanchard & M. Signore, 241
Einasto, J. 2009, Dark Matter, UNESCO EOLSS ENCYCLOPEDIA (ArXiv:0901.0632)
Einasto, J., Corwin, Jr., H. G., Huchra, J., Miller, R. H., & Tarenghi, M. 1983a, Local cells of the universe — Two voids of diameter 200 MPC, Highlights of Astronomy, 6, 757
Einasto, J. & Einasto, L. 1972a, Descriptive functions of the Galaxy, Tartu Astr. Obs. Teated, 36, 46
Einasto, J. & Einasto, L. 1972b, Modified exponential models of stellar systems, Tartu Astr. Obs. Teated, 36, 3
Einasto, J., Einasto, M., Gottloeber, S., et al. 1997a, A 120 MPC Periodicity in the Three-Dimensional Distribution of Galaxy Superclusters, Nature, 385, 139
Einasto, J., Einasto, M., & Gramann, M. 1989, Structure and formation of superclusters. IX - Self-similarity of voids, MNRAS, 238, 155
Einasto, J., Einasto, M., Gramann, M., & Saar, E. 1991, Structure and formation of super-clusters. XIII - The void probability function, MNRAS, 248, 593
Einasto, J., Einasto, M., Hütsi, G., et al. 2003a, Clusters and superclusters in the Las Campanas redshift survey, A&A, 410, 425
Einasto, J., Einasto, M., Saar, E., Jones, B. J. T., & Martinez, V. J. 1988, Superclustering: Theory Versus Observations, in IAU Symposium, Vol. 130, Large Sca
le Structures of the Universe, ed. J. Audouze, M.-C. Pelletan, & S. Szalay, 245
Einasto, J., Einasto, M., Saar, E., et al. 2006, Luminous superclusters: remnants from infla-tion?, A&A, 459, L1
Einasto, J., Einasto, M., Saar, E., et al. 2007a, Superclusters of galaxies from the 2dF redshift survey. II. Comparison with simulations, A&A, 462, 397
Einasto, J., Einasto, M., Tago, E., et al. 1999a, Steps toward the Power Spectrum of Matter. II. The Biasing Correction with σ8 Normalization, ApJ, 519, 456
Einasto, J., Einasto, M., Tago, E., et al. 2007b, Superclusters of galaxies from the 2dF redshift survey. I-The catalogue, A&A, 462, 811
Einasto, J., Einasto, M., Tago, E., et al. 1999b, Steps toward the Power Spectrum of Matter. III-The Primordial Spectrum, ApJ, 519, 469
Einasto, J., Einasto, M., Tago, E., et al. 1999c, Steps toward the Power Spectrum of Matter. I. The Mean Spectrum of Galaxies, ApJ, 519, 441
Einasto, J. & Gramann, M. 1993, Transition scale to a homogeneous universe, ApJ, 407, 443
Einasto, J., Gramann, M., Einasto, M., et al. 1986a, Structure and Formation of Superclusters. Supercluster-Void Topology, Tartu Astr. Obs. Preprint, 3
Einasto, J., Gramann, M., Saar, E., & Tago, E. 1993, Power spectrum of the matter distribution in the universe on large scales, MNRAS, 260, 705
Einasto, J. & Haud, U. 1989, Galactic models with massive corona. I - Method. II - Galaxy, A&A, 223, 89
Einasto, J., Haud, U., & Jõeveer, M. 1979a, The Galactic Circular Velocity Near the Sun, in IAU Symposium, Vol. 84, The Large-Scale Characteristics of the Galaxy, ed. W. B. Burton, 231
Einasto, J., Haud, U., Jõeveer, M., & Kaasik, A. 1976a, The Magellanic Stream and the mass of our hypergalaxy, MNRAS, 177, 357
Einasto, J., Haud, U., Jõeveer, M., Kaasik, A., & Traat, P. 1978, Galactic model with a massive corona, Astronomicheskij Tsirkulyar, 1023, 2
Einasto, J., Hütsi, G., Einasto, M., et al. 2003b, Clusters and superclusters in the Sloan Digital Sky Survey, A&A, 405, 425
Einasto, J., Hütsi, G., Saar, E., et al. 2011a, Wavelet analysis of the cosmic web formation, A&A, 531, A75
Einasto, J. & Jaaniste, J. 1982, On the search for large-scale structure of the universe, Priroda, 12, 80
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