Publications

2012:

  1. 1. Cappellari, M. & ATLAS3D TEAM**, ‘A systematic variation of the stellar initial mass function in early-type galaxies’, Nature accepted, arXiv:1202.3308

  2. 2. Elliott, J.; Greiner, J.; Khochfar, S.; Schady, P.; Johnson, J. L.; Rau, A., ‘The long gamma-ray burst rate and the correlation with host galaxy properties’, A&A accepted, arXiv:1202.1225

  3. 3. Serra, P. & ATLAS3D TEAM**, ‘The Atlas3D project-- XIII. Mass and morphology of HI in early-type galaxies as a function of environment’, MNRAS accepted, arXiv:1111.4241

  4. 4. Crocker, A. & ATLAS3D TEAM**, ‘The Atlas3D project-- XI. Dense molecular gas properties of CO-luminous early-type galaxies’, MNRAS in press, arXiv:1112.3641

  5. 5. Maio, U.; Khochfar, S., ‘The imprint of cosmological non-Gaussianities on primordial structure formation’, MNRAS in press, arXiv:1110.0493

  6. 6. Neistein, E.; Khochfar, S.; Dalla Vecchia, C.; Schaye, J., ‘Hydrodynamical simulations and semi-analytic models of galaxy formation: two sides of the same coin’, MNRAS in press, arXiv:1109.4635

2011:

  1. 7. Khochfar, S. & Silk, J., ‘Understanding the specific star formation rate of high redshift galaxies: the case for two modes of star formation’, MNRAS 410

  2. 8. Johnson, J. L.;  Khochfar, S.; Greif, T.; Durier, F, ‘Accretion onto black holes formed by direct collapse’, MNRAS 410

  3. 9. Gaibler, V.;  Khochfar, S.; Krause, M., ‘Asymmetries in Extragalactic Radio Sources: Clues from 3D Simulations of Jet-Disk Interaction’, MNRAS 411

  4. 10. Kimm, T. ; Yi, S.; Khochfar, S., ‘The Impact of Gas Stripping and Stellar Mass Loss on Satellite Galaxy Evolution’, ApJ 729

  5. 11. Maio, U.; Koopmans, L. V. E.; Ciardi, B., ‘The impact of primordial supersonic flows on early structure formation, reionization and the lowest-mass dwarf galaxies’, MNRAS 412

  6. 12. Johnson, J. L.; Khochfar, S., ‘Suppression of accretion on to low-mass Population III stars’, MNRAS 413

  7. 13. Cappellari, M. & ATLAS3D TEAM**, ‘The Atlas3D project-- I. A volume-limited sample of 260 nearby early-type galaxies: science goals and selection criteria’, MNRAS 413

  8. 14. Davis, T. & ATLAS3D TEAM**, ‘The Atlas3D project-- V. The CO Tully-Fisher relation of early-type galaxies’, MNRAS 414

  9. 15. Maio, U.; Iannuzzi, F., ‘Baryon history and cosmic star formation in non-Gaussian cosmological models: numerical simulations’, MNRAS 415

  10. 16. Maio, U.; Khochfar, S.; Johnson, J. L., Ciardi, B., ‘The interplay between chemical and mechanical feedback from the first generation of stars’MNRAS 414

  11. 17. Krajnovic, D. & ATLAS3D TEAM**, ‘he ATLAS3D project - II. Morphologies, kinemetric features and alignment between photometric and kinematic axes of early-type galaxies’, MNRAS 414

  12. 18. Emsellem, E. & ATLAS3D TEAM**, ‘The ATLAS3D project - III. A census of the stellar angular momentum within the effective radius of early-type galaxies: unveiling the distribution of Fast and Slow Rotators’, MNRAS 414

  13. 19. Tepper-Garcia, T.; Richter, P.; Schaye, J.; Booth, C. M.; Dalla Vecchia, C.; et al., ‘Absorption signatures of warm-hot gas at low redshift: OVI’, MNRAS 413

  14. 20. McCarthy, I. G.; Schaye, J.; Ponman,T. J.; Bower, R. G.; Booth, C. M.; Dalla Vecchia, C.; et al., ‘Gas expulsion by quasar-driven winds as a solution to the over-cooling problem in galaxy groups and clusters’MNRAS 412

  15. 21. van de Voort, F.; Schaye, J.; Booth, C. M.; Haas, M. R.; Dalla Vecchia, C., ‘The rates and modes of gas accretion on to galaxies and their gaseous haloes’, MNRAS 414

  16. 22. Young, L. & ATLAS3D TEAM**, ‘The Atlas3D project -- IV: the molecular gas content of early-type galaxies’, MNRAS 414

  17. 23. Neistein, E.; Li, C.; Khochfar, S.; et al., ‘A tale of two populations: the stellar mass of central and satellite galaxies’, MNRAS 416

  18. 24. Davies, T. & ATLAS3D TEAM**, ‘The ATLAS3D project - X. On the origin of the molecular and ionized gas in early-type galaxies’, MNRAS 417

  19. 25. Bois, M. & ATLAS3D TEAM**, ‘VI. Simulations of binary galaxy mergers and the link with Fast Rotators, Slow Rotators, and Kinematically Distinct Cores’, MNRAS 416

  20. 26. Duc, P. A. & ATLAS3D TEAM**, ‘The ATLAS3D project - IX. The merger origin of a fast and a slow rotating Early-Type Galaxy revealed with deep optical imaging: first results’, MNRAS 417

  21. 27. Cappellari, M. & ATLAS3D TEAM**, ‘The Atlas3D project-- VII. A new look at the morphology of nearby galaxies: the kinematic morphology-density relation’, MNRAS 416

  22. 28. Alatalo, K. & ATLAS3D TEAM**, ‘Discovery of an AGN-Driven Molecular Outflow in the Local Early-Type Galaxy NGC 1266’, ApJ 735

  23. 29. Neistein, E.; Weinmann, S. M.; Li, C.; Boylan-Kolchin, M., ‘Linking haloes to galaxies: how many halo properties are needed?’, MNRAS 414

  24. 30. Khochfar, S. & ATLAS3D TEAM**, The Atlas3D Project-- VIII. Modelling the Formation and Evolution of Fast and Slow Rotator Ellipticals within LCDM’, MNRAS 417

  25. 31. Maio, U. & Iannuzzi, F., ‘Baryon history and cosmic star formation in non-Gaussian cosmological models: numerical simulations’, MNRAS 415

  26. 32. Durier, F. & Dalla Vecchia, C., ‘Implementation of feedback in SPH: towards concordance of methods’, MNRAS accepted, arXiv:1105.3729

  27. 33. van Daalen, M. P. et al., ‘The effects of galaxy formation on the matter power spectrum: A challenge for precision cosmology’, MNRAS 415

  28. 34. Weinmann, S. M.; Neistein, E.; Dekel, A., ‘On the puzzling plateau in the specific star formation rate at z=2-7’, MNRAS 417

  29. 35. Campisi, M. A.; Maio, U.; Salveterra, R.; Ciardi, B., ‘Population III stars and the long gamma-ray burst rate’, MNRAS 416

  30. 36. van de Voort, F.; Schaye, J.; Booth, C. M.; Dalla Vecchia, C., ‘The drop in the cosmic star formation rate below redshift 2 is caused by a change in the mode of gas accretion and by AGN feedback’, MNRAS 415

  31. 37. Johnson, J. L., ‘Angular momentum transport by thermal emission in black hole accretion discs’, AN 332

  32. 38. Duffy et al, ‘Modelling neutral hydrogen in galaxies using cosmological hydrodynamical simulations’, MNRAS accepted, arXiv:1107.3720

  33. 39. Johnson, J. L. & Khochfar S., The Contribution of Supernovae to Cosmic Reionization, ApJ 743

  34. 40. Jeeson-Daniel, A. et al., ‘The correlation structure of dark matter halo properties’, MNRAS accepted, arXiv:1103.5467

  35. 41. Font, A. et al., ‘Cosmological simulations of the formation of the stellar haloes around disc galaxies’, MNRAS 416

  36. 42. Altay, G.; Theuns, T.; Schaye, J.; Crighton, N. H. M.; Dalla Vecchia, C., ‘Through Thick and Thin - HI Absorption in Cosmological Simulations’, ApJL 737

  37. 43.Jeeson-Daniel, A.; Dalla Vecchia, C. et al., ‘The correlation structure of dark matter halo properties’, MNRAS 415

  38. 44. Booth, C. M.; Schaye, J.; Delgado, J. D.; Dalla Vecchia, C., ‘The filling factor of intergalactic metals at redshift z=3’, MNRAS accepted

2010:

  1. 45. Schaye, J.; Dalla Vecchia, C.; et al., ‘The physics driving the cosmic star formation history’, MNRAS 402

  2. 46. Sawala, T.; Scannapieco, C.; Maio, U.; White, S., ‘Formation of isolated dwarf galaxies with feedback’, MNRAS 402

  3. 47. Johnson, J. L., ‘Population III Star Clusters in the Reionized Universe’, MNRAS 404

  4. 48. Kumar, P.; Johnson, J. L., ‘Supernovae-induced accretion and star formation in the inner kiloparsec of a gaseous disk’, MNRAS 404

  5. 49. Shankar, F.; Marulli, F.; Bernardi, M.; Boylan-Kolchin; M., Dai, X.; Khochfar, S., ‘Further constraining galaxy evolution models through the size function of SDSS early-type galaxies’, MNRAS 405

  6. 50. Peirani, S.; Crocket, M.; Geen, S.; Khochfar, S.; Kaviraj, S.; Silk, J., ‘Composite star formation histories of early-type galaxies from minor mergers: prospects for WFC3’, MNRAS 405

  7. 51. Hopkins, P. F.; Bundy, K.; Croton, D.; Hernquist, L.; Keres, D.; Khochfar, S.; et al., ‘Mergers and Bulge Formation in CDM: Which Mergers Matter?’, ApJ 715

  8. 52. Duffy, A. R.; Schaye, J.; Kay, S. T.; Dalla Vecchia, C.; et al., ‘Impact of baryon physics on dark matter structures: a detailed simulation study of halo density profiles’, MNRAS 405

  9. 53. McCarthy, I. G.; Schaye, J.; Ponman,T. J.; Bower, R. G.; Booth, C. M.; Dalla Vecchia, C.; et al., ‘The case for AGN feedback in galaxy groups’, MNRAS 406

  10. 54. Bois, M. & ATLAS3D TEAM**, ‘Formation of slowly rotating early-type galaxies via major mergers: a Resolution Study’, MNRAS 406

  11. 55. Hirschmann, M.; Khochfar, S.; et al., ‘On the evolution of the intrinsic scatter in black hole versus galaxy mass relations’, MNRAS 407

  12. 56. Ledo, H.; Sarzi, M; Dotti, M.; Khochfar, S.; et al., ‘A Census of Nuclear Stellar Disks in Early-type Galaxies’, MNRAS 407

  13. 57. Maio, U.; Ciardi, B.; Dolag, K.; Tornatore, L.; Khochfar, S., ‘The transition from population III to population II-I star formation’, MNRAS 407

  14. 58. Bertone, S.; Schaye, J.; Dalla Vecchia, C.; et al., ‘Metal-line emission from the warm-hot intergalactic medium: I. Soft X-rays’, MNRAS 407

  15. 59. Hopkins, P.; Crotton, D.; Bundy, K.; Khochfar, S.; et al., ‘Mergers in ΛCDM: Uncertainties in theoretical predictions and interpretations of the merger rate’, ApJ 724

  16. 60. Sales, L. V.; Navaro, J. F.; Schaye, J.; Dalla Vecchia, C.; et al., ‘Feedback and the Structure of Simulated Galaxies at redshift z=2’, MNRAS 409

  17. 61. Bertone, S.; Schaye, J.; Booth, C. M.; Dalla Vecchia, C.; et al., ‘Metal-line emission from the warm-hot intergalactic medium: II. Ultraviolet’, MNRAS 408

  18. 62. Wiersma, R. P. C.; Schaye, J.; Dalla Vecchia, C.; et al., ‘The enrichment history of cosmic metals’, MNRAS 409

  19. 63. Burkert, A.; Genzel, R.; Bouche, N.; Cresci, G.; Khochfar, S.; et al., ‘High-Redshift Star-Forming Galaxies: Angular Momentum and Baryon Fraction, Turbulent Pressure Effects and the Origin of Turbulence’, ApJ 725

2009:

  1. 64. Khochfar, S., Silk, J., ‘Dry Mergers: A Crucial Test for Galaxy Formation’, MNRAS 397

  2. 65. Ferreras, I.; Lisker, T.; Pasquali, A.; Khochfar, S., Kaviraj, S., ‘On the Formation of Massive Galaxies: a Simultaneous Study of Number Density, Size and Intrinsic Color Evolution in GOODS’, MNRAS 396

  3. 66. Schawinski, K.; Lintott, C.; Thomas, D.; Sarzi, M.; Andreescu, D.; Bamford, S. P.; Kaviraj, S.; Khochfar, S., et al., ‘Galaxy Zoo: a sample of blue early-type galaxies at low redshift’, MNRAS 396

  4. 67. Khochfar, S. & Silk, J., ‘Modeling the Star Forming Universe at z=2: Impact of Cold Accretion Flows’, ApJL 700

  5. 68. Obreschkow, D.; Croton, D.; De Lucia, G.; Khochfar, S.; Rawlings S., ‘Simulation of the Cosmic Evolution of Atomic and Molecular Hydrogen in Galaxies’, ApJ 698

  6. 69. Weinzirl, T.; Jogee, S.; Khochfar, S.; Burkert, A.; Kormendy, J., ‘Bulge n and B/T in High Mass Galaxies: Constraints on the Origin of Bulges in Hierarchical Models’, ApJ 696

  7. 70. Kaviraj, S.; Peirani, S.; Khochfar, S.; Silk, J.; Kay, S.,‘The role of minor mergers in the recent star formation history of early-type galaxies’, MNRAS 394

  8. 71. Gaibler, V. ; Krause, M.; Camenzind, M. ‘Very Light Magnetized Jets on Large Scales - I. Evolution and Magnetic Fields’ , MNRAS 400

  9. 72. Gaibler, V. ; Camenzind, M. ‘Numerical Models for Emission Line Nebulae in High Redshift Radio Galaxies’ , High Performance Computing in Science and Engineering '09

  10. 73. Maio, U. et al., ‘The onset of star formation in primordial haloes’, A&A 503

Submitted:

  1. 74. Petkova, M. & Maio, U., ‘Radiative feedback on early molecular gas and implications for primordial structure formation’ MNRAS submitted, arXiv:1110.0492

  2. 75. Bryan et al., ‘Influence of baryons on the orbital structure of dark matter haloes’, MNRAS submitted, arXiv:1109.4612

  3. 76. Ferreras, I.; Pasquali, A.; Khochfar, S. et al., ‘The road to the red sequence: A detailed view of the formation of a "red and dead" massive galaxy at z~2’, MNRAS submitted, arXiv:1109.6323

  4. 77. Wang, L.; Weinmann, S. M.; Neistein, E., ‘A modified star formation law as a solution to open problems in galaxy evolution’, MNRAS submitted, arXiv:1107.4419

  5. 78. Gaibler, V.;  Khochfar, S.; Krause, M.; Silk, J, ‘Jet-induced star formation in gas-rich galaxies’, MNRAS submitted

** ATLAS3D TEAM:   K. Alatalo, L. Blitz, B.M. Bois, F. Bournaud, M. Bureau, M. Cappellari, R. L. Davies, T. A. Davis, P. T. de Zeeuw, P.-A. Duc, E. Emsellem, S. Khochfar, D. Krajnovic, H. Kuntschner, P.-Y. Lablanche, R. M. McDermid, R. Morganti, T. Naab, T. Oosterloo, M. Sarzi, N. Scott, P. Serra, A. Weijmans, L. M. Young