Galaxy Formation and Evolution

A nice movie of Galaxy Formation with AMR code

1. Galaxy Size Problem at z=3: Simulated Galaxies Are Too Small, M.K. Ryan Joung, Renyue Cen and Greg Bryan (2008), ApJL, submitted

2. Gravitational Stability of Circumnuclear Disks in Elliptical Galaxies Daisuke Kawata, Renyue Cen and Luis Ho (2007), ApJ, 669, 232

3. A Physical Framework for Grand Unification of Galaxies and Active Galactic Nuclei I: Origin of the Black Hole Mass - Bulge Velocity Dispersion Relation, Renyue Cen (2007), ApJL, 654, L37

4. The History of Cosmological Star Formation: Three Independent Approaches, Kentaro Nagamine, Jeremiah P. Ostriker, Masataka Fukugita, Renyue Cen (2006), ApJ, 653, 881

5. Origin of Two Distinct Populations in Dwarf Spheroidal Galaxies Daisuke Kawata, Nobuo Arimoto, Renyue Cen, Brad K. Gibson (2006), ApJ, 641, 785

6. Tracing early structure formation with massive starburst galaxies and their implications for reionization Nagamine, Kentaro; Cen, Renyue; Furlanetto, Steven R.; Hernquist, Lars; Night, Christopher; Ostriker, Jeremiah P.; Ouchi, Masami (2006), New Astronomy Reviews, 50, 29

7. Massive galaxies & EROs at z=1-3 in cosmological hydrodynamic simulations: near-IR properties K. Nagamine, R. Cen, L. Hernquist, J.P. Ostriker, V. Springel (2005), ApJ, 627, 608

8. Massive galaxies in cosmological simulations: UV-selected sample at redshift z=2, Kentaro Nagamine, Renyue Cen, Lars Hernquist, Jeremiah P. Ostriker, Volker Springel (2005), ApJ, 618, 23

9. Is There a Missing Galaxy Problem at High Redshift? Kentaro Nagamine, Renyue Cen, Lars Hernquist, Jeremiah P. Ostriker and Volker Springel (2004), ApJ, 610, 45

10. Cosmological Mestel Disks and the Rossby Vortex Instability: The Origin of Supermassive Black Holes S.A. Colgate, R. Cen, H. Li, N. Currier, & M.S. Warren (2003), ApJ Letters, 598, L7

11. The Probability Distribution Function of Light in the Universe: Results from Hydrodynamic Simulations Jeremiah P. Ostriker, Kentaro Nagamine, Renyue Cen, Masataka Fukugita (2003), ApJ, 597, 1

12. Evolution of the Luminosity Function and Colors of Galaxies in a Lambda-CDM Universe K. Nagamine, M. Fukugita, R. Cen and, J.P. Ostriker (2001), MNRAS, 327, L10

13. Star Formation History and Stellar Metallicity Distribution in a Cold Dark Matter Universe K. Nagamine, M. Fukugita, R. Cen and, J.P. Ostriker (2001), ApJ, 558, 497

14. Cosmic Mach Number as a Function of Overdensity and Galaxy Age Kentaro Nagamine, Jeremiah P. Ostriker and Renyue Cen (2001), ApJ, 553, 513

15. Why Are There Dwarf Spheroidal Galaxies? R. Cen (2001), ApJ Letters, 549, L195

16. Decaying Cold Dark Matter Model and Small-Scale Power, R. Cen (2000), ApJ Letters, 546, L77

17. Luminosity density and Star Formation Rate from LCDM Hydrodynamical Simulation, K. Nagamine, Renyue Cen and Jeremiah P. Ostriker (2000), ApJ, 541, 25

18. The structure of dark matter halos in hierarchical clustering theories Kandaswamy Subramanian, Renyue Cen and Jeremiah P. Ostriker (2000), ApJ, 538, 528

19. Physical Bias of Galaxies From Large-Scale Hydrodynamic Simulations, R. Cen and J.P. Ostriker (2000), ApJ, 538, 83

20. Evolution of Lyman Break Galaxies Beyond Redshift Four, Renyue Cen (2000), ApJ Letters, 533, L1

21. Time Evolution of Galaxy Formation and Bias in Cosmological Simulations, Michael Blanton, Renyue Cen, Jeremiah P. Ostriker, Michael A. Strauss and Max Tegmark (2000), ApJ, 531, 1

22. The Physical Origin of Scale Dependent Bias in Cosmological Simulations, M. Blanton, R. Cen, J.P. Ostriker and M.A. Strauss (1999), ApJ, 522, 590

23. Steps toward the power spectrum of matter. III. The primordial spectrum J. Einasto, M. Einasto, E. Tago, A.A. Starobinsky, F. Atrio-Barandela, V. Mueller, A. Knede and R. Cen (1999), ApJ, 519, 469

24. Steps toward the power spectrum of matter. II. The biasing correction with sigma8 normalization J. Einasto, M. Einasto, E. Tago, V. Mueller, A. Knebe, R. Cen, A.A. Starobinsky and F. Atrio-Barandela (1999), ApJ, 519, 456

25. Steps toward the power spectrum of matter. I. The mean spectrum of galaxies J. Einasto, M. Einasto, E. Tago, A.A. Starobinsky, F. Atrio-Barandela, V. Mueller, A. Knebe, P. Frisch, R. Cen, H. Andernach and D. Tucker (1999), ApJ, 519, 441

26. Cosmic Chemical Evolution R. Cen and J.P. Ostriker (1999), ApJ Letters, 519, L109

27. Accuracy of Mesh Based Cosmological Hydrocodes: Tests and Corrections R. Cen and J.P. Ostriker (1999), ApJ, 517, 31

28. Gaussian Peaks and Clusters of Galaxies, R. Cen (1998), ApJ, 509, 494

29. Testing Cold Dark Matter Models At Moderate to High Redshift, R. Cen (1998), ApJ, 509, 16

30. The Galaxy Pairwise Velocity Dispersion as a Function of Local Density, M.A. Strauss, J.P. Ostriker and R. Cen (1998), ApJ, 494, 20

31. The Local Group as a Test of Cosmological Models, F. Governato, B. Moore, R. Cen, J. Stadel, G. Lake and T. Quinn (1997), New Astronomy, 2(2), 91.

32. Patterns in Nonlinear Gravitational Clustering: A Numerical Investigation, T. Padmanabhan, R. Cen, J.P. Ostriker, and F J Summers (1996), ApJ, 466, 604.

33. Topology of Large-scale Structure by Galaxy Type: Hydrodynamic Simulations, J.R. Gott, R. Cen, and J.P. Ostriker (1996), ApJ, 465, 499.

34. Hydrodynamic Simulations of the Growth of Cosmological Structure: Summary and Comparisons Among Scenarios, J.P. Ostriker and R. Cen (1996), ApJ, 464, 27.

35. Can Standard Cosmological Models Explain the Observed Abell Cluster Bulk Flow? M.A. Strauss, R. Cen, J.P. Ostriker, T.R. Lauer and M. Postman (1995), ApJ, 444, 507.

36. A Hydrodynamic Approach to Cosmology: the Mixed Dark Matter Cosmological Scenario, R. Cen and J.P. Ostriker (1994), ApJ, 431, 451.

37. A Comparison of Cosmological Hydrodynamic Codes, H. Kang, J.P. Ostriker, R. Cen, D. Ryu, L. Hernquist, A.E. Evrard, G.L. Bryan and M.L. Norman (1994), ApJ, 430, 83.

38. A Hydrodynamic Treatment of the Cold Dark Scenario with A Cosmological Constant, R. Cen, N.Y. Gnedin and J.P. Ostriker (1993), ApJ, 417, 387.

39. A Hydrodynamic Approach to Cosmology: Nonlinear Effects on the Cosmic Backgrounds in CDM, R. Scaramella, R. Cen and J.P. Ostriker (1993), ApJ, 416, 399.

40. A Hydrodynamic Approach to Cosmology: The Primeval Baryon Isocurvature Model, R. Cen, J.P. Ostriker and P.J.E. Peebles (1993), ApJ, 415, 423.

41. A Hydrodynamic Treatment of the Tilted Cold Dark Matter Cosmological Scenario, R. Cen and Ostriker, J.P. (1993), ApJ, 414, 407.

42. A Cosmological Hydrodynamic Code Based on the Total Variation Diminishing Scheme, D. Ryu, J.P. Ostriker, H. Kang and R. Cen (1993), ApJ, 414, 1.

43. The Cosmic Mach Number: Direct Comparisons of Observations and Models, M.A. Strauss, R. Cen and J.P. Ostriker (1993), ApJ, 408, 389.

44. Redshift Space Clustering of Galaxies and CDM, N.A. Bahcall, R. Cen and M. Gramann (1993), ApJ Letters, 408, L77.

45. Galaxy Formation and Physical Bias, R. Cen and J.P. Ostriker (1992), ApJ Letters, 399, L113.

46. Galaxy Clusters and CDM: A Low-Density Unbiased Universe? N.A. Bahcall and R. Cen (1992), ApJ Letters, 398, L81.

47. A Tilted Cold Dark Matter Cosmological Scenario, R. Cen, N.A. Gnedin, L.A. Kofman and Ostriker, J.P. (1992), ApJ Letters, 399, L11.

48. A 3-D Hydrodynamic Treatment of the Hot Dark Matter Cosmological Scenario, R. Cen and Ostriker, J.P. (1992), ApJ, 399, 331.

49. A Hydrodynamic Treatment of the Cold Dark Matter Cosmological Scenario, R. Cen and Ostriker, J.P. (1992), ApJ, 393, 22.

50. A Hydrodynamic Approach to Cosmology: Methodology, R. Cen (1992), ApJ Supplement Series, 78, 341.

51. A Hydrodynamic Approach to Cosmology: Texture Seeded CDM and HDM Cosmogonies, R. Cen, J.P. Ostriker, D.N. Spergel and N. Turok (1991), ApJ, 383, 1.

52. The Universe in a Box: Thermal Effects in the Standard Cold Dark Matter Scenario, R. Cen, A. Jameson, F. Liu and J.P. Ostriker (1990), ApJ Letters, 362, L41.