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Scientific publications since 2018
 

  1. Li, L.; Revisiting the Spectral Energy Correlations of GRBs with Fermi Data. I. Model-wise Properties”; (2023) Astrophysical Journal, Supplement Series, 266 (2), art. no. 31.
  2. Sahakyan, N., Harutyunyan, G., Israyelyan, D.; “Origin of multiwavelength emission from flaring high redshift blazar PKS 0537-286”; (2023) Monthly Notices of the Royal Astronomical Society, 521 (1), pp. 1013-1022.
  3. Argüelles, C.R., Becerra-Vergara, E.A., Rueda, J.A., Ruffini, R.; “Fermionic Dark Matter: Physics, Astrophysics, and Cosmology” (2023) Universe, 9 (4), art. no. 197.
  4. Wang, Y., Becerra, L.M., Fryer, C.L., Rueda, J.A., Ruffini, R.; “GRB 171205A: Hypernova and Newborn Neutron Star”; (2023) Astrophysical Journal, 945 (2), art. no. 95.
  5. Li, L., Rueda, J.A., Moradi, R., Wang, Y., Xue, S.S., Ruffini, R.; “Self-similarities and Power Laws in the Time-resolved Spectra of GRB 190114C, GRB 130427A, GRB 160509A, and GRB 160625B”; (2023) Astrophysical Journal, 945 (1), art. no. 10.
  6. Campion, S., Uribe-Suárez, J.D., Melon Fuksman, J.D., Rueda, J.A.; “MeV, GeV and TeV Neutrinos from Binary-Driven Hypernovae”; (2023) Symmetry, 15 (2), art. no. 412.
  7. Li, L., Wang, Y., Ryde, F., Pe’er, A., Zhang, B., Guiriec, S., Castro-Tirado, A.J., Kann, D.A., Axelsson, M., Page, K., Veres, P., Bhat, P.N.; “A Cosmological Fireball with 16% Gamma-Ray Radiative Efficiency”; (2023) Astrophysical Journal Letters, 944 (2), art. no. L57.
  8. Sahakyan, N., Giommi, P., Padovani, P., Petropoulou, M., Begue, D., Boccardi, B., Gasparyan, S.; “A multimessenger study of the blazar PKS 0735+178: a new major neutrino source candidate”; (2023) Monthly Notices of the Royal Astronomical Society, 519 (1), pp. 1396-1408.
  9. Zhao, X.-J., Tan, J., Yang, X.-F.; “Scattering-state solutions to the Dirac spinors with negative-energy eigenstates in a rotating spheroid”; (2023) Astronomische Nachrichten, 344 (1-2), art. no. e230001.
  10. Gao, Z.F., Wang, H., Zhao, X.J., Yang, X.F.; “Equation of state and surface thermal emission of magnetized white dwarfs”; (2023) Astronomische Nachrichten, 344 (1-2), art. no. e220112.
  11. Argüelles, C.R., Becerra-Vergara, E.A., Crespi, V., Krut, A., Rueda, J.A., Ruffini, R., Yunis, R.I.; “Dark matter fermions: from linear to non-linear structure formation”: (2022) Astronomical and Astrophysical Transactions, 33 (3), pp. 297-312.
  12. Sahakyan, N., Israyelyan, D., Harutyunyan, G., Gasparyan, S., Vardanyan, V., Khachatryan, M.; “Modelling the time variable spectral energy distribution of the blazar CTA 102 from 2008 to 2022”; (2022) Monthly Notices of the Royal Astronomical Society, 517 (2), pp. 2757-2768.
  13. Li, L.; “Standard GRB Spectral Models “Misused”?”; (2022) Astrophysical Journal, 941 (1), art. no. 27.
  14. Carvalho, G.A., Anjos, R.C.D., Coelho, J.G., Lobato, R.V., Malheiro, M., Marinho, R.M., Rodriguez, J.F., Rueda, J.A., Ruffini, R.; “Orbital Decay of Double White Dwarfs: Beyond Gravitational-wave Radiation Effects”; (2022) Astrophysical Journal, 940 (1), art. no. 90.
  15. Rueda, J.A., Li, L., Moradi, R., Ruffini, R., Sahakyan, N., Wang, Y.; “On the X-Ray, Optical, and Radio Afterglows of the BdHN I GRB 180720B Generated by Synchrotron Emission”; (2022) Astrophysical Journal, 939 (2), art. no. 62.
  16. Sedaghat, J., Zebarjad, S.M., Bordbar, G.H., Eslam Panah, B., Moradi, R.; “Is the remnant of GW190425 a strange quark star?”; (2022) Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, 833, art. no. 137388.
  17. Wang, Y., Rueda, J.A., Ruffini, R., Moradi, R., Li, L., Aimuratov, Y., Rastegarnia, F., Eslamzadeh, S., Sahakyan, N., Zheng, Y.; “GRB 190829A—A Showcase of Binary Late Evolution”; (2022) Astrophysical Journal, 936 (2), art. no. 190.
  18. Rastegarnia, F., Moradi, R., Rueda, J.A., Ruffini, R., Li, L., Eslamzadeh, S., Wang, Y., Xue, S.S.; “The structure of the ultrarelativistic prompt emission phase and the properties of the black hole in GRB 180720B”; (2022) European Physical Journal C, 82 (9), art. no. 778.
  19. Punsly, B.; “The Details of Limb Brightening Reveal the Structure of the Base of the Jet in M87 for the First Time”; (2022) Astrophysical Journal, 936 (1), art. no. 79.
  20. Campion, S., Rueda, J.A., Xue, S.S., Ruffini, R.; “Magnetic field screening in strong crossed electromagnetic fields”; (2022) Nuovo Cimento della Societa Italiana di Fisica C, 45 (5), art. no. 139.
  21. Middei, R., Giommi, P., Perri, M., Turriziani, S., Sahakyan, N., Chang, Y.L., Leto, C., Verrecchia, F.; “The first hard X-ray spectral catalogue of Blazars observed by NuSTAR”; (2022) Monthly Notices of the Royal Astronomical Society, 514 (3), pp. 3179-3190.
  22. Sahakyan, N., Giommi, P.; “A 13-yr-long broad-band view of BL Lac”; (2022) Monthly Notices of the Royal Astronomical Society, 513 (3), pp. 4645-4656.
  23. Vereshchagin, G., Li, L., Bégué, D.; “Is magnetically dominated outflow required to explain GRBs?”; (2022) Monthly Notices of the Royal Astronomical Society, 512 (4), pp. 4846-4851.
  24. Punsly, B., Groeneveld, C., Hill, G.J., Marziani, P., Zeimann, G.R., Schneider, D.P.; “The Energetics of the Central Engine in the Powerful Quasar 3C 298”; (2022) Astronomical Journal, 163 (5), art. no. 194.
  25. Rueda, J.A., Ruffini, R., Li, L., Moradi, R., Sahakyan, N., Wang, Y.; “The white dwarf binary merger model of GRB 170817°”; (2022) International Journal of Modern Physics D, 31 (7), art. no. 2230013.
  26. Rastegarnia, F., Mirtorabi, M.T., Moradi, R., Vafaei Sadr, A., Wang, Y.; “Deep learning in searching the spectroscopic redshift of quasars”; (2022) Monthly Notices of the Royal Astronomical Society, 511 (3), pp. 4490-4499.
  27. Rueda, J.A., Ruffini, R., Kerr, R.P.; “Gravitomagnetic Interaction of a Kerr Black Hole with a Magnetic Field as the Source of the Jetted GeV Radiation of Gamma-Ray Bursts”; (2022) Astrophysical Journal, 929 (1), art. no. 56.
  28. Argüelles, C.R., Mestre, M.F., Becerra-Vergara, E.A., Crespi, V., Krut, A., Rueda, J.A., Ruffini, R.; “What does lie at the Milky Way centre? Insights from the S2-star orbit precession”; (2022) Monthly Notices of the Royal Astronomical Society: Letters, 511 (1), pp. L35-L39.
  29. Argüelles, C.R., Becerra-Vergara, E.A., Krut, A., Yunis, R., Rueda, J.A., Ruffini, R.; “Reshaping our understanding on structure formation with the quantum nature of the dark matter”; (2022) International Journal of Modern Physics D, 31 (2), art. no. 2230002.
  30. Wang, Y., Moradi, R., Zhoolideh Haghighi, M.H., Rastegarnia, F.; “Introduction of machine learning for astronomy (hands-on workshop)”; (2022) Astronomical and Astrophysical Transactions, 33 (3), pp. 337-346.
  31. Becerra, L.M., Rueda, J.A., Ruffini, R.; “SPH simulations of the induced gravitational collapse”; (2022) Astronomical and Astrophysical Transactions, 33 (3), pp. 265-272.
  32. Gasparyan, S., Bégué, D., Sahakyan, N.; “Time-dependent lepto-hadronic modelling of the emission from blazar jets with SOPRANO: The case of TXS 0506 + 056, 3HSP J095507.9 + 355101, and 3C 279”; (2022) Monthly Notices of the Royal Astronomical Society, 509 (2), pp. 2102-2121.
  33. Punsly, B., Chen, S., “Did the Event Horizon Telescope Detect the Base of the Submilliarsecond Tubular Jet in M87?”; (2021) Astrophysical Journal Letters, 921 (2), art. no. L38.
  34. Rueda, J.A., Ruffini, R., Moradi, R., Wang, Y.; “A brief review of binary-driven hypernova”; (2021) International Journal of Modern Physics D, 30 (15), art. no. 2130007.
  35. Giommi, P., Perri, M., Capalbi, M., D’Elia, V., Barres de Almeida, U., Brandt, C.H., Pollock, A.M.T., Arneodo, F., Di Giovanni, A., Chang, Y.L., Civitarese, O., de Angelis, M., Leto, C., Verrecchia, F., Ricard, N., Di Pippo, S., Middei, R., Penacchioni, A.V., Ruffini, R., Sahakyan, N., Israyelyan, D., Turriziani, S.; “X-ray spectra, light curves and SEDs of blazars frequently observed by Swift”; (2021) Monthly Notices of the Royal Astronomical Society, 507 (4), pp. 5690-5702.
  36. Rueda, J.A., Ruffini, R.; “The quantum emission of an alive black hole”; (2021) International Journal of Modern Physics D, 30 (14), art. no. 2141003.
  37. Campion, S., Rueda, J.A., Xue, S.S., Ruffini, R.; “On the Magnetic Field Screening in Strong Crossed Electromagnetic Fields”; (2021) Astronomy Reports, 65 (10), pp. 911-915.
  38. Li, L.; “Searching for Observational Evidence for Binary Star Systems in Gamma-ray Bursts”; (2021) Astronomy Reports, 65 (10), pp. 973-975.
  39. Prakapenia, M.A., Vereshchagin, G.V.; “Reaction Rates of Three-Particle Interactions in Relativistic Plasma”; (2021) Astronomy Reports, 65 (10), pp. 1011-1014
  40. Wang, Y.; “Gamma-Ray Burst from Binary Star: Neutron Star and Carbon–Oxygen Core”; (2021) Astronomy Reports, 65 (10), pp. 1074-1077.
  41. Ruffini, R.; “Discovery of the Moment of Formation of the Black Hole in GRB 190114C”; (2021) Astronomy Reports, 65 (10), pp. 1030-1035.
  42. Rueda, J.A.; “An Update of the Binary-Driven Hypernovae Scenario of Long Gamma-Ray Bursts”; (2021) Astronomy Reports, 65 (10), pp. 1026-1029.
  43. Chen, Y.C.; “Classifying seyfert galaxies with deep learning”; (2021) Astrophysical Journal, Supplement Series, 256 (2), art. no. 34.
  44. Punsly, B., Frey, S., Reynolds, C., Marziani, P., Pushkarev, A., Chen, S., Li, S., Kharb, P.; “The highly self-absorbed blazar pks 1351-018”; (2021) Astrophysical Journal, 919 (1), art. no. 40.
  45. Moradi, R., Rueda, J.A., Ruffini, R., Li, L., Bianco, C.L., Campion, S., Cherubini, C., Filippi, S., Wang, Y., Xue, S.S.; “Nature of the ultrarelativistic prompt emission phase of GRB 190114C”; (2021) Physical Review D, 104 (6), art. no. 063043.
  46. Amelino-Camelia, G., Rosati, G., Bedić, S.; “Phenomenology of curvature-induced quantum-gravity effects”; (2021) Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, 820, art. no. 136595.
  47. Campion, S., Rueda, J.A., Ruffini, R., Xue, S.S., “Magnetic field screening in strong crossed electromagnetic fields”; (2021) Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, 820, art. no. 136562.
  48. Punsly, B.; “The Bulk Flow Velocity and Acceleration of the Inner Jet in M87”; (2021) Astrophysical Journal, 918 (1), art. no. 4.
  49. Ruffini, R., Moradi, R., Rueda, J.A., Li, L., Sahakyan, N., Chen, Y.-C., Wang, Y., Aimuratov, Y., Becerra, L., Bianco, C.L., Cherubini, C., Filippi, S., Karlica, M., Mathews, G.J., Muccino, M., Pisani, G.B., Xue, S.S.; “The morphology of the X-ray afterglows and of the jetted GeV emission in long GRBs”; (2021) Monthly Notices of the Royal Astronomical Society, 504 (4), pp. 5301-5326.
  50. Sahakyan, N.; “Modelling the broad-band emission of 3C 454.3”; (2021) Monthly Notices of the Royal Astronomical Society, 504 (4), pp. 5074-5086.
  51. Li, L., Ryde, F., Pe'Er, A., Yu, H.-F., Acuner, Z.; “Bayesian Time-resolved Spectroscopy of Multipulse GRBs: Variations of Emission Properties among Pulses”; (2021) Astrophysical Journal, Supplement Series, 254 (2), art. no. 35.
  52. Wang, Y.; “Do All Long-duration Gamma-Ray Bursts Emit GeV Photons?”; (2021) Astrophysical Journal, 913 (2), art. no. 86.
  53. Moradi, R., Rueda, J.A., Ruffini, R., Wang, Y.; “The newborn black hole in GRB 191014C proves that it is alive”; (2021) Astronomy and Astrophysics, 649, art. no. A75.
  54. Punsly, B., Nagai, H., Savolainen, T., Orienti, M.; “Observing the Time Evolution of the Multicomponent Nucleus of 3C 84”; (2021) Astrophysical Journal, 911 (1), art. no. 19.
  55. Li, L., Zhang, B.; “Testing the High-latitude Curvature Effect of Gamma-Ray Bursts with Fermi Data: Evidence of Bulk Acceleration in Prompt Emission”; (2021) Astrophysical Journal, Supplement Series, 253 (2), art. no. 43.
  56. Sahakyan, N., Giommi, P.; “The strange case of the transient HBL blazar 4FGL J1544.3-0649”; (2021) Monthly Notices of the Royal Astronomical Society, 502 (1), pp. 836-844
  57. Zhang, B., Wang, Y., Li, L.; “Dissecting the Energy Budget of a Gamma-Ray Burst Fireball”; (2021) Astrophysical Journal Letters, 909 (1), art. no. L3.
  58. Becerra-Vergara, E.A., Rueda, J.A., Ruffini, R.; “A test of the fermionic dark matter nature of the supermassive compact object at the center of our galaxy”; (2021) Astronomische Nachrichten, 342 (1-2), pp. 388-393.
  59. Bedić, S., Kong, O.C.W., Ting, H.K.; “Group theoretical approach to Pseudo-Hermitian quantum mechanics with lorentz covariance and c → ∞ limit”; (2021) Symmetry, 13 (1), art. no. 22, pp. 1-23.
  60. Shakeri, S., Hajkarim, F., Xue, S.-S.; “Shedding new light on sterile neutrinos from XENON1T experiment”; (2020) Journal of High Energy Physics, 2020 (12), art. no. 194.
  61. Yunis, R., Argüelles, C.R., Mavromatos, N.E., Moliné, A., Krut, A., Carinci, M., Rueda, J.A., Ruffini, R.; “Galactic center constraints on self-interacting sterile neutrinos from fermionic dark matter (“ino”) models”; (2020) Physics of the Dark Universe, 30, art. no. 100699.
  62. Becerra-Vergara, E.A., Argüelles, C.R., Krut, A., Rueda, J.A., Ruffini, R.; “Geodesic motion of S2 and G2 as a test of the fermionic dark matter nature of our Galactic core”; (2020) Astronomy and Astrophysics, 641, art. no. A34.
  63. Punsly, B., Hill, G.J., Marziani, P., Kharb, P., Berton, M., Crepaldi, L., Indahl, B.L., Zeimann, G.; “The Energetics of Launching the Most Powerful Jets in Quasars: A Study of 3C 82”; (2020) Astrophysical Journal, 898 (2), art. no. 169.
  64. Li, L.; “Thermal Components in Gamma-Ray Bursts. II. Constraining the Hybrid Jet Model”; (2020) Astrophysical Journal, 894 (2), art. no. 100.
  65. Vereshchagin, G.V., Siutsou, I.A., “Diffusive photospheres in gamma-ray bursts”;(2020) Monthly Notices of the Royal Astronomical Society, 494 (1), pp. 1463-1469.
  66. Rueda, J.A., Ruffini, R., Karlica, M., Moradi, R., Wang, Y.; “Magnetic fields and afterglows of bdhne: inferences from grb 130427a, grb 160509a, grb 160625b, grb 180728a, and grb 190114c”; (2020) Astrophysical Journal, 893 (2), art. no. 148.
  67. Rueda, J.A., Ruffini, R.; “The blackholic quantum”; (2020) European Physical Journal C, 80 (4), art. no. 300.
  68. Reynolds, C., Punsly, B., Miniutti, G., O'Dea, C.P., Hurley-Walker, N.; “Estimating the Jet Power of Mrk 231 during the 2017-2018 Flare”; (2020) Astrophysical Journal, 891 (1), art. no. 59.
  69. Bedić, S., Kong, O.; “Analysis on complete set of fock states with explicit wavefunctions for the covariant harmonic oscillator problem”; (2020) Symmetry, 12 (1), art. no. 39.
  70. Ruffini, R., Moradi, R., Rueda, J.A., Becerra, L., Bianco, C.L., Cherubini, C., Filippi, S., Chen, Y.C., Karlica, M., Sahakyan, N., Wang, Y., Xue, S.S.; “On the GeV Emission of the Type i BdHN GRB 130427A"”; (2019) Astrophysical Journal, 886 (2), art. no. 82.
  71. Li, L., Geng, J.-J., Meng, Y.-Z., Wu, X.-F., Huang, Y.-F., Wang, Y., Moradi, R., Uhm, Z.L., Zhang, B.; “"double-tracking" Characteristics of the Spectral Evolution of GRB 131231A: Synchrotron Origin?”; (2019) Astrophysical Journal, 884 (2), art. no. 109.
  72. Oliveira, H.O., Magalhaes, N.S., Marinho, R.M., Carvalho, G.A., Frajuca, C.; “Using pulsar's braking indices to estimate changes in their moments of inertia with age-related considerations”; (2019) Journal of Physics: Conference Series, 1291 (1), art. no. 012012.
  73. dos Santos, S.I., Jr., Carvalho, G.A., Moraes, P.H.R.S., Lenzi, C.H., Malheiro, M.; “A conservative energy-momentum tensor in the f(R,T) gravity and its implications for the phenomenology of neutron stars”; (2019) European Physical Journal Plus, 134 (8), art. no. 398.
  74. Becerra, L., Boshkayev, K., Rueda, J.A., Ruffini, R.; “Time evolution of rotating and magnetized white dwarf stars”; (2019) Monthly Notices of the Royal Astronomical Society, 487 (1), pp. 812-818.
  75. Otoniel, E., Franzon, B., Carvalho, G.A., Malheiro, M., Schramm, S., Weber, F.; “Strongly Magnetized White Dwarfs and Their Instability Due to Nuclear Processes”; (2019) Astrophysical Journal, 879 (1), art. no. 46.
  76. Punsly, B.; “Constraints on Black Hole Jet Models Used As Diagnostic Tools of Event Horizon Telescope Observations of M87”; (2019) Astrophysical Journal Letters, 879 (1), art. no. L11.
  77. Rueda, J.A., Ruffini, R., Wang, Y.; “Induced gravitational collapse, binary-driven hypernovae, long gramma-ray bursts and their connection with short gamma-ray bursts”; (2019) Universe, 5 (5), art. no. 110.
  78. Lobato, R.V., Carvalho, G.A., Martins, A.G., Moraes, P.H.R.S., “Energy nonconservation as a link between f(R,T) gravity and noncommutative quantum theory”; (2019) European Physical Journal Plus, 134 (4), art. no. 132.
  79. Rueda, J.A., Ruffini, R., Wang, Y., Bianco, C.L., Blanco-Iglesias, J.M., Karlica, M., Lorén-Aguilar, P., Moradi, R., Sahakyan, N.; “Electromagnetic emission of white dwarf binary mergers”; (2019) Journal of Cosmology and Astroparticle Physics, 2019 (3), art. no. 044.
  80. Wang, Y., Rueda, J.A., Ruffini, R., Becerra, L., Bianco, C., Becerra, L., Li, L., Karlica, M.; “Two Predictions of Supernova: GRB 130427A/SN 2013cq and GRB 180728A/SN 2018fip”; (2019) Astrophysical Journal, 874 (1), art. no. 39.
  81. Argüelles, C.R., Krut, A., Rueda, J.A., Ruffini, R.; “Novel constraints on fermionic dark matter from galactic observables II: Galaxy scaling relations”; (2019) Physics of the Dark Universe, 24, art. no. 100278.
  82. Chen, Y.-C., Hwang, C.-Y.; “Emission line luminosity distributions of Seyfert 2 galaxies”; (2019) Monthly Notices of the Royal Astronomical Society, 485 (3), pp. 3402-3408.
  83. Bedić, S., Vereshchagin, G.; “Probability of inflation in loop quantum cosmology”; (2019) Physical Review D, 99 (4), art. no. 043512.
  84. Riahi, R., Kalantari, S.Z., Rueda, J.A.; “Universal relations for the Keplerian sequence of rotating neutron stars”; (2019) Physical Review D, 99 (4), art. no. 043004.
  85. Becerra, L., Ellinger, C.L., Fryer, C.L., Rueda, J.A., Ruffini, R.; “SPH Simulations of the Induced Gravitational Collapse Scenario of Long Gamma-Ray Bursts Associated with Supernovae”; (2019) Astrophysical Journal, 871 (1), art. no. 14.
  86. Ruffini, R., Fuksman, J.D.M., Vereshchagin, G.V.; “On the Role of a Cavity in the Hypernova Ejecta of GRB 190114C”; (2019) Astrophysical Journal, 883 (2), art. no. 191.
  87. Punsly, B., Marziani, P., Bennert, V.N., Nagai, H., Gurwell, M.A.; “Revealing the Broad Line Region of NGC 1275: The Relationship to Jet Power”; (2018) Astrophysical Journal, 869 (2), art. no. 143.
  88. Ruffini, R., Becerra, L., Bianco, C.L., Chen, Y.C., Karlica, M., Kovačević, M., Fuksman, J.D.M., Moradi, R., Muccino, M., Pisani, G.B., Primorac, D., Rueda, J.A., Vereshchagin, G.V., Wang, Y., Xue, S.S.; “On the Ultra-relativistic Prompt Emission, the Hard and Soft X-Ray Flares, and the Extended Thermal Emission in GRB 151027A"; (2018) Astrophysical Journal, 869 (2), art. no. 151.
  89. Punsly, B., Tramacere, A., Kharb, P., Marziani, P.; “The Powerful Jet and Gamma-Ray Flare of the Quasar PKS 0438-436”; (2018) Astrophysical Journal, 869 (2), art. no. 174.
  90. Ruffini, R., Karlica, M., Sahakyan, N., Rueda, J.A., Wang, Y., Mathews, G.J., Bianco, C.L., Muccino, M.; “A GRB Afterglow Model Consistent with Hypernova Observations”; (2018) Astrophysical Journal, 869 (2), art. no. 101.
  91. Prakapenia, M.A., Siutsou, I.A., Vereshchagin, G.V.; “Numerical Scheme for Treatment of Uehling–Uhlenbeck Equation for Binary and Triple Interactions in Relativistic Plasma”; (2018) Astronomy Reports, 62 (12), pp. 926-932.
  92. Krut, A., Arguëlles, C.R., Rueda, J., Ruffini, R.; “Galactic Constraints on Fermionic Dark Matter”; (2018) Astronomy Reports, 62 (12), pp. 898-904.
  93. Becerra, L., Ellinger, C., Fryer, C., Rueda, J.A., Ruffini, R.; “On the Induced Gravitational Collapse: SPH Simulations”; (2018) Astronomy Reports, 62 (12), pp. 840-846.
  94. Chen, Y.-C., Hwang, C.-Y.; “Morphology of Seyfert Galaxies”; (2018) Astronomy Reports, 62 (12), pp. 853-858.
  95. Vereshchagin, G., Bedić, S.; “Loop Quantum Cosmology and Probability of Inflation”; (2018) Astronomy Reports, 62 (12), pp. 959-964.
  96. Primorac, D., Muccino, M., Moradi, R., Wang, Y., Melon Fuksman, J.D., Ruffini, R., Bianco, C.L., Rueda, J.A.; “Structure of the Prompt Emission of GRB 151027A Within the Fireshell Model”; (2018) Astronomy Reports, 62 (12), pp. 933-939.
  97. Moradi, R., Ruffini, R., Bianco, C.L., Chen, Y.-C., Karlica, M., Melon Fuksman, J.D., Primorac, D., Rueda, J.A., Shakeri, S., Wang, Y., Xue, S.S.; “Relativistic Behavior and Equitemporal Surfaces in Ultra-Relativistic Prompt Emission Phase of Gamma-Ray Bursts”; (2018) Astronomy Reports, 62 (12), pp. 905-910.
  98. Oliveira, H.O., Magalhaes, N.S., Marinho, R.M.M., Jr., Carvalho, G.A., Frajuca, C.; “Relating braking indices of young pulsars to the dynamics of superfluid cores”; (2018) Journal of Cosmology and Astroparticle Physics, 2018 (11), art. no. 025.
  99. Rueda, J.A., Ruffini, R., Wang, Y., Aimuratov, Y., De Almeida, U.B., Bianco, C.L., Chen, Y.C., Lobato, R.V., Maia, C., Primorac, D., Moradi, R., Rodriguez, J.F., “GRB 170817A-GW170817-AT 2017gfo and the observations of NS-NS, NS-WD and WD-WD mergers”; (2018) Journal of Cosmology and Astroparticle Physics, 2018 (10), art. no. 006.
  100. Argüelles, C.R., Krut, A., Rueda, J.A., Ruffini, R.; “Novel constraints on fermionic dark matter from galactic observables I: The Milky Way”; (2018) Physics of the Dark Universe, 21, pp. 82-89.
  101. Amati, L., O'Brien, P., Götz, D., Bozzo, E., Tenzer, C., Frontera, F., Ghirlanda, G., Labanti, C., Osborne, J.P., Stratta, G., Tanvir, N., Willingale, R., Attina, P., Campana, R., Castro-Tirado, A.J., Contini, C., Fuschino, F., Gomboc, A., Hudec, R., Orleanski, P., Renotte, E., Rodic, T., Bagoly, Z., Blain, A., Callanan, P., Covino, S., Ferrara, A., Le Floch, E., Marisaldi, M., Mereghetti, S., Rosati, P., Vacchi, A., D'Avanzo, P., Giommi, P., Piranomonte, S., Piro, L., Reglero, V., Rossi, A., Santangelo, A., Salvaterra, R., Tagliaferri, G., Vergani, S., Vinciguerra, S., Briggs, M., Campolongo, E., Ciolfi, R., Connaughton, V., Cordier, B., Morelli, B., Orlandini, M., Adami, C., Argan, A., Atteia, J.-L., Auricchio, N., Balazs, L., Baldazzi, G., Basa, S., Basak, R., Bellutti, P., Bernardini, M.G., Bertuccio, G., Braga, J., Branchesi, M., Brandt, S., Brocato, E., Budtz-Jorgensen, C., Bulgarelli, A., Burderi, L., Camp, J., Capozziello, S., Caruana, J., Casella, P., Cenko, B., Chardonnet, P., Ciardi, B., Colafrancesco, S., Dainotti, M.G., D'Elia, V., De Martino, D., De Pasquale, M., Del Monte, E., Della Valle, M., Drago, A., Evangelista, Y., Feroci, M., Finelli, F., Fiorini, M., Fynbo, J., Gal-Yam, A., Gendre, B., Ghisellini, G., Grado, A., Guidorzi, C., Hafizi, M., Hanlon, L., Hjorth, J., Izzo, L., Kiss, L., Kumar, P., Kuvvetli, I., Lavagna, M., Li, T., Longo, F., Lyutikov, M., Maio, U., Maiorano, E., Malcovati, P., Malesani, D., Margutti, R., Martin-Carrillo, A., Masetti, N., McBreen, S., Mignani, R., Morgante, G., Mundell, C., Nargaard-Nielsen, H.U., Nicastro, L., Palazzi, E., Paltani, S., Panessa, F., Pareschi, G., Pe'er, A., Penacchioni, A.V., Pian, E., Piedipalumbo, E., Piran, T., Rauw, G., Razzano, M., Read, A., Rezzolla, L., Romano, P., Ruffini, R., Savaglio, S., Sguera, V., Schady, P., Skidmore, W., Song, L., Stanway, E., Starling, R., Topinka, M., Troja, E., van Putten, M., Vanzella, E., Vercellone, S., Wilson-Hodge, C., Yonetoku, D., Zampa, G., Zampa, N., Zhang, B., Zhang, B.B., Zhang, S., Zhang, S.-N., Antonelli, A., Bianco, F., Boci, S., Boer, M., Botticella, M.T., Boulade, O., Butler, C., Campana, S., Capitanio, F., Celotti, A., Chen, Y., Colpi, M., Comastri, A., Cuby, J.-G., Dadina, M., De Luca, A., Dong, Y.-W., Ettori, S., Gandhi, P., Geza, E., Greiner, J., Guiriec, S., Harms, J., Hernanz, M., Hornstrup, A., Hutchinson, I., Israel, G., Jonker, P., Kaneko, Y., Kawai, N., Wiersema, K., Korpela, S., Lebrun, V., Lu, F., MacFadyen, A., Malaguti, G., Maraschi, L., Melandri, A., Modjaz, M., Morris, D., Omodei, N., Paizis, A., Páta, P., Petrosian, V., Rachevski, A., Rhoads, J., Ryde, F., Sabau-Graziati, L., Shigehiro, N., Sims, M., Soomin, J., Szécsi, D., Urata, Y., Uslenghi, M., Valenziano, L., Vianello, G., Vojtech, S., Watson, D., Zicha, J.; “The THESEUS space mission concept: science case, design and expected performances”; (2018) Advances in Space Research, 62 (1), pp. 191-244.
  102. Punsly, B., Hardcastle, M., Hada, K.; “A new solution to the plasma starved event horizon magnetosphere: Application to the forked jet in M87”; (2018) Astronomy and Astrophysics, 614, art. no. A104.
  103. Ruffini, R., Rodriguez, J., Muccino, M., Rueda, J.A., Aimuratov, Y., Almeida, U.B.D., Becerra, L., Bianco, C.L., Cherubini, C., Filippi, S., Gizzi, D., Kovacevic, M., Moradi, R., Oliveira, F.G., Pisani, G.B., Wang, Y., “On the Rate and on the Gravitational Wave Emission of Short and Long GRBs”; (2018) Astrophysical Journal, 859 (1), art. no. 30.
  104. Cherubini, C., Filippi, S., Loppini, A., Moradi, R., Ruffini, R., Wang, Y., Xue, S.-S.; “Perfect relativistic magnetohydrodynamics around black holes in horizon penetrating coordinates”; (2018) Physical Review D, 97 (6), art. no. 064038.
  105. Rodríguez, J.F., Rueda, J.A., Ruffini, R.; “Comparison and contrast of test-particle and numerical-relativity waveform templates”; (2018) Journal of Cosmology and Astroparticle Physics, 2018 (2), art. no. 030.
  106. Vereshchagin, G.V.; “Cosmic horizon for GeV sources and photon-photon scattering”; (2018) Astrophysics and Space Science, 363 (2), art. no. 29.
  107. Li, L., Wang, Y., Shao, L., Wu, X.-F., Huang, Y.-F., Zhang, B., Ryde, F., Yu, H.-F.; “A Large Catalog of Multiwavelength GRB Afterglows. I. Color Evolution and Its Physical Implication”; (2018) Astrophysical Journal, Supplement Series, 234 (2), art. no. 26, .
  108. Becerra, L., Guzzo, M.M., Rossi-Torres, F., Rueda, J.A., Ruffini, R., Uribe, J.D.; “Neutrino Oscillations within the Induced Gravitational Collapse Paradigm of Long Gamma-Ray Bursts”; (2018) Astrophysical Journal, 852 (2), art. no. 120.
  109. Pisani, G.B., Ruffini, R., Aimuratov, Y., Bianco, C.L., Karlica, M., Kovacevic, M., Moradi, R., Muccino, M., Penacchioni, A.V., Primorac, D., Rueda, J.A., Wang, Y.; “The first ICRANet catalog of binary-driven hypernovae”; (2018) EPJ Web of Conferences, 168, art. no. 04002.
  110. Rodríguez, J.F., Rueda, J.A., Ruffini, R.; “Strong-field gravitational-wave emission in Schwarzschild and Kerr geometries: Some general considerations”; (2018) EPJ Web of Conferences, 168, art. no. 02006.
  111. Becerra, L.M., Bianco, C., Fryer, C., Rueda, J., Ruffini, R.; “On the Induced Gravitational Collapse”; (2018) EPJ Web of Conferences, 168, art. no. 02005.
  112. Primorac, D., Ruffini, R., Pisani, G.B., Aimuratov, Y., Biancol, C.L., Karlica, M., Melon Fuksman, J.D., Moradi, R., Muccino, M., Penacchioni, A.V., Rueda, J.A., Wang, Y., “GRB 110731A within the IGC paradigm”; (2018) EPJ Web of Conferences, 168, art. no. 04008.
  113. Rueda, J.A., Ruffini, R., Rodriguez, J.F., Muccino, M., Aimuratov, Y., Barres De Almeida, U., Becerra, L., Bianco, C.L., Cherubini, C., Filippi, S., Kovacevic, M., Moradi, R., Pisani, G.B., Wang, Y.; “The binary progenitors of short and long GRBs and their gravitational-wave emission”; (2018) EPJ Web of Conferences, 168, art. no. 01006, .
  114. Wang, Y., Aimuratov, Y., Moradi, R., Peresano, M., Ruffini, R., Shakeri, S.; “Revisiting the statistics of x-ray ares in gamma-ray bursts”; (2018) Memorie della Societa Astronomica Italiana - Journal of the Italian Astronomical Society, 89 (2), pp. 293-299.
  115. Muccino, M., Ruffini, R., Kovacevic, M., Oliveira, F.G., Rueda, J.A., Aimuratov, Y., Bianco, C.L., Enderli, M., Moradi, R., Penacchioni, A.V., Pisani, G.B., Wang, Y., Zaninoni, E.; “GRB 140619B: A short GRB from a binary neutron star merger leading to black hole formation”; (2018) 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, pp. 2969-2974.
  116. Mavromatos, N.E., Argüelles, C.R., Ruffini, R., Rueda, J.A.; “Self-interacting dark matter”; (2018) 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, pp. 639-666.
  117. Mathews, G.J., Biaco, C., Muccio, M., Pisani, G., Rueda, J., Ruffini, R., Wang, Y.; “Constraints on the source for gamma-ray bursts from observed X-ray afterglows”; (2018) 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, pp. 2957-2962.
  118. Caceres, D.L., Rueda, J.A.; “On the spin-down and X-ray luminosity of anomalous X-ray pulsars and soft gamma repeaters as white dwarfs”; (2018) 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, pp. 4344-4349.
  119. Chang, Y.-L., Arsioli, B., Giommi, P., Padovani, P.; “The 2WHSP catalog of VHE blazars”; (2018) 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, pp. 3092-3097.
  120. Rueda, J.A., Aimuratov, Y., Barres De Almeida, U., Becerra, L., Bianco, C.L., Cherubini, C., Filippi, S., Karlica, M., Kovacevic, M., Melon Fuksman, J.D., Moradi, R., Muccino, M., Penacchioni, A.V., Pisani, G.B., Primorac, D., Ruffini, R., Sahakyan, N., Shakeri, S., Wang, Y.; “The binary systems associated with short and long gamma-ray bursts and their detectability”; (2018) 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, pp. 306-324.
  121. Ruffini, R., Aimuratov, Y., Becerra, L., Bianco, C.L., Karlica, M., Kovacevic, M., Melon Fuksman, J.D., Moradi, R., Muccino, M., Penacchioni, A.V., Pisani, G.B., Primorac, D., Rueda, J.A., Shakeri, S., Vereshchagin, G.V., Wang, Y., Xue, S.-S.; “The cosmic matrix in the 50th anniversary of relativistic astrophysics”; (2018) 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, pp. 258-305.
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