Publications:

  1. V. Carruba, R. Sfair, R. A. N. Araujo, O. C. Winter, D. C. Mourao, S. Di Ruzza, S. Aljbaae, G. Carita, R. C. Domingos, A. A. Alves, 2025, The invisible threat: Assessing the collisional hazard posed by the undiscovered Venus co-orbital asteroids, Astronomy and Astrophysics, in press.
  2. V. Carruba, S. Di Ruzza, G. Carita, S. Aljbaae, R. C. Domingos , M. Huaman, R. A. N. Araujo, D. C. Mourao, A. A. Alves, E. M. D. S. Delfino, and V. R. Silva, 2025, Time scales for Co-orbital Cycles of Venus Trojans Asteroids, Icarus, 433, A116508.
  3. A. Alves, V. Carruba, E. M. D. S. Delfino, V. R. Silva, L. Blasco, 2025, Deep learning identification of asteroids interacting with g-s secular resonances, Planetary and Space Sciences, 258, A106062.
  4. V. Carruba, S. Aljbaae, E. Smirnov, G. Carita, 2025, Vision Transformers for identifying asteroids interacting with secular resonances, Icarus, 425C 116346.
  5. V. Carruba, M. H. Morais, D. Mourao, R. Araujo, S. Aljbaae, G. Carita, R. C. Domingos, 2024, New transient co-orbital asteroids of Venus, 2024, Research Notes of the American Astronomical Society, 8, 213.
  6. V. Carruba, S. Aljbaae, R. C. Domingos, G. Carita, A. Alves, E. M. D. S. Delfino, Digitally filtered resonant arguments for deep learning classification of asteroids in secular resonances, 2024, MNRAS, 531, 4432-4443.
  7. G. Carita, S. Aljbaae, A. H. Morais, A. C. Signor, A.F.B.A. Prado, V. Carruba, H. Hussmann, Image Classification of Second and Third order Retrograde Resonance in the Planar Circular Restricted Three-Body Problem. 2024, CMDA, 136, A10.
  8. Carruba V., Aljbaae S., Knezevic, Z., Mahlke, M., Masiero J. R., RoigF., Domingos R. C., Huaman M., Alves A., Martins B. S., Carita, G., Lourenco M, Destouni S. C., On the identification of the first two young asteroid families in g-type non-linear secular resonances 2024, MNRAS, 528, 796-814.
  9. Carruba V., Camargo J. B., Aljbaae S. and 51 co-authors, DES collaboration, 2023, Main belt asteroids taxonomical information from Dark Energy Survey data, MNRAS, 527, 6495-6505.
  10. Carruba V., Aljbaae S., G. Carita, M. V. F. Lourenco, B. Martins, A. A. Abreucon, 2023, Imbalanced classification applied to asteroid resonant dynamics, Frontiers in Astronomy and Space Sciences, 10, A1196223.
  11. Carruba V., Aljbaae S., G. Carita, R. C. Domingos, B. Martins, 2022, Optimization of Artificial Neural Networks models applied to the identification of images of asteroids' resonant arguments, CMDA, 134, A59.
  12. Lourenco M. V. F., Carruba V., 2022, Genetic optimization of asteroid families membership, Frontiers in Astronomy and Space Sciences, 9, A988729.
  13. Carruba V., Aljbaae S., Domingos R. C., Huaman M., Barletta W., 2022, Machine Learning applied to asteroid dynamics, CMDA, 134, A36.
  14. Carruba V., Aljbaae S., Domingos R. C., Huaman M., Barletta W., 2022, Identifying the population of stable nu6 resonant asteroids using large databases, MNRAS 514, 4803.
  15. Carruba V., Aljbaae S., Domingos R. C., Huaman M., Barletta W., 2021, Chaos identification through the autocorrelation function indicator (ACFI), Proceedings of the international Astronomical Union, 15, 108.
  16. Aljbaae S., Souchay J., Carruba V., Sanchez D., Prado A.F.B.A., 2021, Influence of Apophis' spin axis variations on a spacecraft during the 2029 close approach with Earth, Romanian Astronomical Journal, 31, 317.
  17. Souza R. S., Krone-Martins A., Ishida E., Carruba V., Domingos R. C., Aljbaae S., Huaman M., Barletta W., 2021, Probabilistic modeling of asteroid diameters from Gaia EDR2 errors, Research Notes of the American Astronomical Society, 5, 199.
  18. Carruba V., Aljbaae S., Domingos R. C., Huaman M., Barletta W., 2021, Chaos identification through the autocorrelation function indicator (ACFI), CMDA, 133, A38.
  19. Carruba V., Aljbaae S., Domingos R. C., 2021, Identification of asteroids groups in the z1 and z2 non-linear secular resonances through genetic algorithms, CMDA, 133, A24.
  20. Carruba V., Aljbaae S., Domingos R. C., Barletta W., 2021, Artificial Neural Network classification of asteroids in the M1:2 mean-motion resonance with Mars, MNRAS, 504, 692.
  21. Pavela D., Novakovic B., Carruba V., Radovic V., 2020, Analysis of the Karma asteroid family, MNRAS, 501, 356.
  22. Carruba V., Aljbaae S., Fazenda A., Barletta W., Lucchini A., Furlaneto P., 2020, Spin pairs in the Koronis asteroid family, Planetary and Space Sciences, 193, A105083.
  23. Carruba V., Aljbaae S., Domingos R. C., Lucchini A., Furlaneto P. 2020, Machine learning classification of new asteroid families members. MNRAS, 496, 540.
  24. Carruba V., Ramos L. G. M., Spoto F. 2020, Spin clusters inside four young asteroid groups, MNRAS, 493, 2556.
  25. Carruba V, Ribeiro J. V., 2020, The Zelima asteroid family, resonant configuration and rotationa fission clusters, Planetary and Space Science, 182, 104810.
  26. Carruba, V., Spoto, F., Barletta, W., Aljbaae, S., Martins, B., 2020, The population of rotational fission clusters inside collisional asteroid families, Nature Astronomy, 4, 83.
  27. Carruba, V., Aljbaae, S., Lucchini, A., 2019, Machine-learning identification of asteroid groups, MNRAS, 488, 1377.
  28. Aljbaae, S., Chanut, T., Prado, A. F. B. A., Carruba, V., Hussman, H., Souchay, J., Sanchez, D., 2019, Orbital stability near the (87) Sylvia system, MNRAS, 486, 2557.
  29. Carruba, V., Barletta, W., 2018, The effect of Ceres on the dynamical evolution of the Zdenekhorsky/Nemesis asteroid family, Planetary and Space Science, 165, 10.
  30. Carruba, V. 2018, On the age of the Beagle secundary asteroid family, Planetary and Space Science, 166, 90.
  31. Huaman, M., Roig, F., Carruba, V., Domingos, R. C., Aljbaae, S., 2018, The resonant population of asteroids in librating states of the nu6 linear secular resonance. MNRAS, 481, 1707.
  32. Carruba, V., De Oliveira, E. R., Rodrigues, B., Requena, I., 2018, The quest for young asteroid families: new families, new results, MNRAS, 479, 4815.
  33. Carruba, V., Vokrouhlický, D., Nesvorný, D., Aljbaae, S., 2018, On  the age of the Nele family, MNRAS, 477, 1308.
  34. Carruba, V, Vokrouhlicky, D., Novakovic, B., 2018, Asteroid families interacting with secular resonances, Planetary and Space Science, 157C, 72.
  35. Carruba, V., Vokrouhlicky, D., Nesvorny, D., 2017, Detection of the Yarkovsky effect for C-type asteroids in the Veritas family, MNRAS, 469, 4400.
  36. Aljbaae, S., Carruba, V., Masiero, J. R., Domingos, R. C., Huaman, M., 2017, The Maria Asteroid family, MNRAS, 471, 4820.
  37. Chanut, T., Prado, A. F. B. A, Aljbaae, S., Carruba, V, 2017, Dynamics in the vicinity of (101955) Bennu: Solar radiation pressure effects in equatorial orbits, MNRAS, 470, 2687.
  38. V. Radovic, B. Novakovic, V. Carruba, D. Marceta, 2017, Excluding interlopers from asteroid families, MNRAS, 470, 576.
  39. M. E. Huaman, V. Carruba, R. C. Domingos, S. Aljbaae, 2017, The asteroid population in g-type non-linear secular resonances. MNRAS, 468, 4982.
  40. P. I. Brasil, F. Roig, D. Nesvorny, V. Carruba, 2017, Scattering V-type asteroids during the giant planets instability: A step for Jupiter, a leap for basalt. MNRAS, 468, 1236.
  41. S. Aljbaae, V. Carruba, J. Masiero, R. C. Domingos, M. E. Huaman, 2016, The Rafita asteroid family, MNRAS 467, 1016.
  42. V. Carruba, B. Novakovic, S. Aljbaae, 2016, On the Hoffmeister family, MNRAS, 465, 4099.
  43. S. Aljbaae, T. G. G. Chanut, V. Carruba, J. Souchay,  A. F. B. A. Prado, A. Amarante, 2016, The dynamical environment of asteroid 21 Lutetia according to different internal models, MNRAS, 464, 3552.
  44. V. Carruba, D. Nesvorny, R. C. Domingos, S. Aljbaae, M. Huaman, 2016, On the highly inclined vW leptokurtic asteroid families, MNRAS, 463, 705.
  45. V. Carruba, 2016, On the Astrid family, MNRAS, 461, 1605.
  46. V. Carruba, D. Nesvorny, D. Vokrouhlicky, 2016, Detection of the YORP effect for small asteroids in the Karin cluster, AJ, 151, 164.
  47. V. Carruba, D. Nesvorny, S. Aljbaae, R. C. Domingos, M. Huaman, 2016, On the oldest asteroid families in the main belt, MNRAS, 458, 3731.
  48. V. Carruba, D. Nesvorny, S. Marchi, S. Aljbaae, 2016, Footprints of a possible Ceres asteroid paleo-family, MNRAS, 458, 1117.
  49. V. Carruba, D. Nesvorny, S. Aljbaae, 2016, Characterizing the original ejection velocity field of the Koronis family, Icarus, 271, 57.
  50. V. Carruba, D. Nesvorny, 2016, Constraints on the original ejection velocity field of asteroid families, MNRAS, 457, 1332.
  51. V. Carruba, S. Aljbaae, O. C. Winter, 2015, On the Erigone family and the z2 secular resonance, MNRAS, 455, 2279.
  52. P. I. Brasil, F. Roig, D. Nesvorny, V. Carruba, S. Aljbaae, M. E. Huaman, 2015, Dynamical dispersal of primordial asteroid families, Icarus, 266, 142.
  53. J. R. Masiero, V. Carruba, A. Mainzer, J. M. Bauer, C. Nugent, 2015, The Euphrosyne family’s contribution to the low albedo near-Earth asteroids, APJ, 803, 179.
  54. V. Carruba, D. Nesvorny, S. Aljbaae, M. E. Huaman, 2015, Dynamical Evolution of the Cybele asteroids, MNRAS, 451, 4763.
  55. T. Chanut, S. Aljbaae, V. Carruba 2015, Mascon gravitation model using a shaped polyhedral source, MNRAS, 450, 3742.
  56. D. Nesvorny, M. Broz, V. Carruba 2015,  Identification and Dynamical Properties of Asteroid Families.  In Asteroid IV, (P. Michel, F. E. DeMeo, W. Bottke Eds.), Univ. Arizona Press and LPI, 297.
  57. M. E. Huaman, V. Carruba, R. C. Domingos 2014, Dynamical evolution of V-type photometric candidates in the outer main belt, MNRAS, 444, 2985.
  58. V. Carruba, S. Aljbaae, D. Souami 2014, Peculiar Euphrosyne, APJ, 792, 46.
  59. V. Carruba, M. E. Huaman, R. C. Domingos, C. R. Dos Santos, D. Souami 2014, Dynamical evolution of V-type photometric candidates in the central main belt, MNRAS, 439, 3168.
  60. V. Carruba, R. C. Domingos, M. E. Huaman, C. R. Dos Santos, D. Souami 2014, Dynamical evolution and chronology of the Hygiea asteroid family, MNRAS, 437, 2279.
  61. V. Carruba, R. C. Domingos, D. Nesvorny, F. Roig, M. E. Huaman, D. Souami 2013, A multi-domain approach to asteroid families identification. MNRAS, 433, 2075.
  62. V. Carruba 2013.  An analysis of the Hygiea asteroid family orbital region.   MNRAS, 431, 3557.
  63. V. Carruba, M. Huaman, R. C. Domingos, F. Roig 2013. Chaotic diffusion caused by close encounters with several massive asteroids II: the regions of (10) Hygiea, (2) Pallas, and (31) Euphrosyne, Astronomy and Astrophysics, 550, A85.
  64. R. C. Domingos, O. C. Winter, V. Carruba, 2012. Mean motion resonances and the stability of a circumbinary disk in a triple stellar system, Astronomy and Astrophysics, 544, A63.
  65. V. Carruba, M. Huaman, S. Douwens, R. C. Domingos 2012. Chaotic diffusion caused by close encounters with several massive asteroids, Astronomy and Astrophysics, 543, A105.
  66. J.F. Machuca, V. Carruba 2012. Secular dynamics and family identification among highly inclined asteroids in the Euphrosyne region. Monthly Notices of the Royal Astronomical Society, 420, 1779-1798.
  67. V. Carruba, J.F. Machuca 2011.  On the Emmenthal Distribution of highly inclined asteroids. Monthly Notices of the Royal Astronomical Society, 418, 1102-1114.
  68. V. Carruba, A. Morbidelli 2011.  On the first nu(6) anti-aligned librating asteroid family of Tina.  Monthly Notices of the Royal Astronomical Society, 412, 2040-2051.
  69. V. Carruba, J.F. Machuca, and H. P. Gasparino 2011.  Dynamical erosion of asteroid groups in the region of the Pallas family.  Monthly Notices of the Royal Astronomical Society, 412, 2052-2062.
  70. V. Carruba 2010. The stable archipelago in the region of the Pallas and Hansa families.  Monthly Notices of the Royal Astronomical Society, 408, 580-600.
  71. V. Carruba 2010.  Dynamical erosion of asteroid groups in the region of the Phocaea family.  Monthly Notices of the Royal Astronomical Society, 403, 1834-1848.
  72. V. Carruba 2009. An analysis of the region of the Phocaea dynamical group.  Monthly Notices of the Royal Astronomical Society,  398, 1512-1526.
  73. V. Carruba 2009. The (not so) peculiar case of the Padua family. Monthly Notices of the Royal Astronomical Society, 395, 358-377.
  74. V. Carruba, T. Michtchenko 2009.  A frequency approach to identifying asteroid families.  II. Families interacting with non-linear secular resonances and low-order mean-motion resonances.  Astronomy and Astrophysics, 493, 267-282.
  75. D. Nesvorny, F. Roig, B. Gladman, D. Lazzaro, V. Carruba, and T. Mothé-Diniz 2008.  Fugitives from the Vesta family, Icarus, 183, 85-95.
  76. V. Carruba, T. Michtchenko 2007c.  A frequency approach to identifying asteroid families.  Astronomy and Astrophysics, 475, 1145-1158.
  77. V.  Carruba, T. Michtchenko, and D. Lazzaro 2007b.  On the V-type asteroids outside the Vesta family.  II.  Is (21238) 1995 WV7 a fragment of the long-lost basaltic crust of (15) Eunomia? Astronomy and Astrophysics, 473, 967-978.
  78. V. Carruba, F. Roig, T. Michtchenko, S. Ferraz-Mello, and D. Nesvorný 2007a. Modeling close encounters with massive asteroids: a Markovian approach. An application to the Vesta family.  Astronomy and Astrophysics, 465, 315-330.
  79. V. Carruba, T. Michtchenko, F. Roig, S. Ferraz-Mello, and D. Nesvorny 2005.  On the V-type asteroids outside the Vesta family.  I.  Interplay of nonlinear secular resonances and the Yarkovsky effect: the cases of 956 Elisa and 809 Lundia.  Astronomy & Astrophysics 441, 819-829.
  80. V. Carruba, D. Nesvorny, J. A. Burns, M. Cuk, and K. Tsiganis 2004. Chaos and Effects of Planetary Migration on S/2000 S5 Kiviuq. Astron. J. 128, 1899-1915.
  81. Holman M. J., JJ Kavelaars, T. Grav, B. J. Gladman, W. Fraser, D. Milisavljiec, P. D. Nicholson, J. A. Burns, V. Carruba, J. M. Petit, P. Rousselot, O. Mousis, B. G. Marsden, and R. A. Jacobson 2004. Discovery of five irregular moons of Neptune. Nature 430, 865-867.
  82. V. Carruba, J. A. Burns, W. Bottke, and D. Nesvorny 2003. Orbital evolution of the Gefion and Adeona asteroid families: close encounters with massive asteroids and the Yarkovsky effect.  Icarus, 162, pp. 308-327.
  83. V. Carruba, J. A. Burns, P. D. Nicholson, and B. Gladman 2002.  On the inclination distribution of the jovian irregular satellites.  Icarus 158, pp. 434-449.
  84. V. Carruba, J. A. Burns, W. Bottke, and D. Nesvorny 2002.  Dynamical evolution of the Adeona and Gefion asteroid families.  Modern Celestial Mechanics: From Theory to Applications, eds. A. Celletti, S. Ferraz-Mello, and J. Henrard, Kluwer Academic Publishers, pp. 365-368.
  85. V. Carruba, A. Coradini 1999.  Lunar cold traps: effects of double shielding,  Icarus 142, p. 402-413.