Dr. Daniel Sudarsky

In this section you will find some articles that in a more technical environment will give you a general panorama of our work:

  1. “Reanalysis of the Eotvos Experiment”, E. Fischbach, D. Sudarsky, A. Szafer, C. Tal- madge y S. H. Aronson, Physical Review Letters 56, 3-6 (January 3, 1986), Physical Review Letters 56, 2424 (C) (June 2, 1986), Physical Review Letters 56, 2426 (C) (June 2, 1986), Physical Review Letters 57, 1959 (C) (13 October 1986).  http://inspirehep.net/record/218690
  2. "Long-Range Forces and the Eotvos Experiment", E. Fischbach, D. Sudarsky, A. Szafer, C. Talmadge, y S. H. Aronson, Annals of Physics 182, pg.1-89 (February 15, 1988). https://www.sciencedirect.com/science/article/pii/0003491688902941#!
  3. “All Orders Vertex Operator for Axionic Wormholes”, B. Grinstein, J. Maharana y D. Sudarsky, Nuclear Physics B 345, pg. 231-247 ( November 26, 1990)https://www.sciencedirect.com/science/article/pii/055032139090616L
  4. “The Effects of External Fields on the Neutral Kaon System”, D. Sudarsky, E. Fischbach, C. Talmadge, S. Aronson y H. Y. Cheng, Annals of Physics 207, pg. 103-139 (April 15, 1991). https://www.sciencedirect.com/science/article/pii/0003491691901817
  5. “Bounds on Oscillating Physics from Solar System Experiments”, D. Sudarsky, Physics Letters B 281, 98-99 (May 1992). https://www.sciencedirect.com/science/article/abs/pii/0370269392902818
  6. “Bremsstrahlung and Zero-Energy Rindler Photons”, A. Higuchi, G.E.A. Matsas y D. Sudarsky, Physical Review D 45, R pg. 3308-3311, (June 15, 1992). https://journals.aps.org/prd/abstract/10.1103/PhysRevD.45.R3308
  7. “Extrema of Mass, Stationary and Staticity and Solutions to the Einstein-Yang-Mills Equations”, D. Sudarsky y R. M. Wald, Physical Review D 46, pg. 1453-1474 (August 15, 1992). https://journals.aps.org/prd/abstract/10.1103/PhysRevD.46.1453
  8. “Bremsstrahlung and the Fulling-Unruh-Davis Thermal Bath”, A. Higuchi, G.E.A. Matsas y D. Sudarsky, Physical Review D 46, pg. 3450-3457, (October 13, 1992). https://journals.aps.org/prd/abstract/10.1103/PhysRevD.46.3450
  9.  “Mass Formulas for Stationary Yang Mills Black Holes and a Simple Proof of two Staticity Theorems”, D. Sudarsky y R. M. Wald,Physical Review D 47 R pg. 5209-5213, (June 15, 1993). https://arxiv.org/abs/gr-qc/9305023
  10. “Unruh-DeWitt Detectors in the Presence of Scalar Sources”, G.E.A. Matsas y D. Sudarsky, Modern Physics Letters A. 9 No 36, pg. 3325-3330, (1994). http://inspirehep.net/record/384965?ln=es
  11.  “A Simple Proof of a No Hair Theorem in Einstein Higgs Theory”, D. Sudarsky, Classical and Quantum Gravity 12, pg. 579- 584, (1995). https://iopscience.iop.org/article/10.1088/0264-9381/12/2/023
  12. “Time Dependent Perturbation Theory and the Zeldovich Electric Dipole Moment in Atoms”, Dubravko Tadic, Dennis E. Krause, Ephraim Fischbach and Daniel Sudarsky, Fizika B 4 No 3, pg. 259-272, (1995). https://www.semanticscholar.org/paper/TIME-DEPENDENT-PERTURBATION-THEORY-AND-THE-ELECTRIC-Tadi%C4%87-Krause/b8f67333ab6421435bc0213dffb206979fe08de8 
  13. “Black Holes Have No Short Hair” Dario Núñez, Hernando Quevedo and Daniel Sudarsky, Physical Review Letters 76 , pg. 571- 574, (1996). https://arxiv.org/abs/gr-qc/9601020
  14. “Galactic periodicity and the Oscilating G Model”, Marcelo Salgado Daniel Sudarsky and Hernando Quevedo, Physical Review D53, pg. 6771-5783, (1996). https://arxiv.org/abs/gr-qc/9606038
  15. “Large Black Holes Have No Hair”, Daniel Sudarsky, Hernando Quevedo and Dario Núñez, Helvetica Acta Physica 69 , pg. 276-280, (1996) https://www.e-periodica.ch/digbib/view?pid=hpa-001:1996:69::1161#302 (article 276)
  16. “Quasi Asymptotically Flat Spacetimes and their ADM Mass”, Ulises Nucamendi and Daniel Sudarsky, Classical and Quantum Gravity 14, pg. 1309-1327, (1997) .https://arxiv.org/abs/gr-qc/9611043
  17. “The Oscillating G model: a posible explanation for the nature of cosmological dark matter”, Hernando Quevedo, Marcelo Salgado and Daniel Sudarsky, The Astrophysical Journal 488, pg. 14-26, (1997) https://iopscience.iop.org/article/10.1086/304694
  18. “Cosmological Dark Matter and Galactic Periodicity”, Daniel Sudarsky, Marcelo Salgado and Hernando Quevedo, Revista Mexicana de Física 43, pg. 699-710 (1997)https://rmf.smf.mx/pdf/rmf/43/5/43_5_699.pdf
  19. “Has the Cosmological Dark Matter been Observed?”, Marcelo Salgado, Daniel Sudarsky and Hernando Quevedo, Physics Letters B408 , pg. 69-74, (1997) . https://arxiv.org/abs/gr-qc/9606039
  20. “Do Collapsed Boson Stars Result in New Types of Black Holes?”, Igor Peña and Daniel Sudarsky, Classical and Quantum Gravity14, pg. 3131-3134, (1997)  https://iopscience.iop.org/article/10.1088/0264-9381/14/11/013
  21. “Do static sources outside a Schwarzschild black hole radiate?”, A. Higuchi, G.E.A. Matsas y D. Sudarsky, Physical Review D 56, R, pg. 6071-6075 (1997) https://arxiv.org/abs/gr-qc/9609025
  22. "Spherical Black Holes Cannot Support Scalar Hair”, Daniel Sudarsky and Thomas Zannias, Physics Review D 58, pg. 087502-1: 087502-4 (1998)https://arxiv.org/abs/gr-qc/9712083
  23. “Interaction of Hawking radiation with static sources outside a Schwarzschild black hole ”, A. Higuchi, G.E.A. Matsas y D. Sudarsky, Physical Review D, 58, pg. 104021-1:104021-10, (1998). https://arxiv.org/abs/gr-qc/9806093
  24. “Spontaneous scalarization”  M. Salgado, D. Sudarsky y U. Nucamendi, Physical Review D, 58, pg. 124003-1:124003-12, (1998)https://arxiv.org/abs/gr-qc/9806070
  25. “A scalar field as a candidate for the cosmological non-baryonic dark matter” Hernando Quevedo, Marcelo Salgado y Daniel Sudarsky, General Relativity and Gravitation, 31, pg. 767-774, (1999).  https://link.springer.com/article/10.1023/A:1026617700841
  26. “Large fluctuations in the horizon and what they teach us about Quantum Gravity and Entropy” R. Sorkin y D. Sudarsky, Classical and Quantum Gravity , 16, pg. 3835- 3857, (1999). This article was selected for the “Editor’s Choise” in Classical and Quantum Gravity  .https://arxiv.org/abs/gr-qc/9902051
  27. “Non-minimal Global Monopoles and Bound Orbits” U. Nucamendi, M. Salgado y D. Sudarsky, Physical Review Letters, 84, pg. 3037-3040, (2000). https://www.ncbi.nlm.nih.gov/pubmed/11019006
  28. “Mass of Colored Black Holes” A. Corichi y D. Sudarsky, published in the section Rapid Communications of  Physical Review D, 61, R pg. 1015 XX1-1015XX4, (2000). https://arxiv.org/abs/gr-qc/9912032
  29. “Einstein Yang Mills Isolated Horizons, Phase space, Mechanics, Hair and Conjectures” A. Corichi, U. Nucamendi y D. Sudarsky,Physics Review D, 62, pg. 044046-1:044046-19, (2000).  https://arxiv.org/abs/gr-qc/0002078
  30. “Spatial Structure and Periodicity in The Universe” J. A. González, H. Quevedo, M. Salgado, y D. Sudarsky, Astronomy and Astrophysics, 362, pg. 835-839, (2000)https://arxiv.org/abs/astro-ph/0010437
  31. “Black Holes with Zero Mass” U. Nucamendi y D. Sudarsky, Classical and Quantum Gravity, 17, pg. 4051-4058, (2000). This article was selected for the “Editor’s Choise” in Classical and Quantum Gravityhttps://arxiv.org/abs/gr-qc/0004068
  32. “An Alternative Approach to the Galactic Dark Matter Problem”, U. Nucamendi, M. Salgado y D. Sudarsky, Physical Review D, 63, pg. 125016-1:125016-16, (2001).https://arxiv.org/abs/gr-qc/0011049
  33. “Numerical Evidence Against Black Holes with Non-minimally Coupled Scalar Hair”, I. Peña y D. Sudarsky, Classical and Quantum Gravity, 18, pg. 1461-1473, (2001).https://iopscience.iop.org/article/10.1088/0264-9381/18/8/304
  34. “Hairy Black Holes Horizon Mass and Solitons” A. Ashtekar, A. Corichi y D. Sudarsky, Classical and Quantum Gravity, 18, pg. 919-940, (2001). This article was selected for the “Editor’s Choise” in Classical and Quantum Gravityhttps://arxiv.org/abs/gr-qc/0011081
  35. “Scalar Solitons in a 4-Dimensional Curved Spacetime”J.A. González y D. Sudarsky, Revista Mexicana de Física, 47, pg. 231- 233, (2001)https://www.researchgate.net/publication/1963736_Scalar_solitons_in_a_4-Dimensional_curved_space-time
  36. “Comment about the Letter entitled: Scalar fields as dark matter in spiral galaxies” D. Sudarsky, Classical and Quantum Gravity, 18, pg. 2851-2852, (2001)https://arxiv.org/abs/gr-qc/0006051
  37. “Local Constraints on the Oscillating G Model” J.A. González, H. Quevedo, M. Salgado, y D. Sudarsky, Physical Review D, 64, pg. 047504-1: 047504-4, (2001); astro-ph/0103314. https://arxiv.org/abs/astro-ph/0103314
  38. “A Mass Formula for EYM Solitons” A Corichi, U. Nucamendi y D. Sudarsky, Physics Review D, 64 pg. 107501-1:107501-4, (2001). https://arxiv.org/abs/gr-qc/0106084
  39. “Quantum Geometry as a Relational Construct”, A. Corichi, M. Ryan y D. Sudarsky Modern Physics Letters A , 17, pg. 555-567, (2002). https://arxiv.org/abs/gr-qc/0203072
  40. “When is S =1/4 A ?”, A. Corichi y D. Sudarsky Modern Physics Letters A 17, pg. 1431-1443, (2002). https://www.researchgate.net/publication/259274386_When_is_S_A4
  41. “A Schrodinger Black Hole and its Entropy”, D. Sudarsky, Modern Physics Letters A17, pg. 1047-1057, (2002). https://www.worldscientific.com/doi/abs/10.1142/S0217732302006928
  42. “Observational Bounds on Quantum Gravity Signals using Existing Data” D. Sudarsky, L. Urrutia, y H. Vucetich, Physical Review Letters 89, pg. 231-301, (2002). https://www.ncbi.nlm.nih.gov/pubmed/12484995
  43. “On the Geometrical Character of Gravitation”, C. Chryssomalakos y D. Sudarsky, General Relativity and Gravitation 35, pg. 605-617, (2003).https://arxiv.org/abs/gr-qc/0206030
  44. “Black Hole Scalar Hair in asymptotically anti-de Sitter Space-times” D. Sudarsky, J.A. González, Physical Review D 67, pg. 024038-1: 024038-5, (2003)https://arxiv.org/abs/gr-qc/0207069
  45. “Bounds on Stringy Quantum Gravity from Low Energy Existing Data” D. Sudarsky, L. Urrutia, y H. Vucetich, Physical Review D68, pg. 024010-1: 024010-5, (2003)https://arxiv.org/abs/gr-qc/0211101
  46. “Non Minimally coupled scalar fields and Isolated Horizons” A. Ashtekar, A. Corichi y D. Sudarsky, Classical and Quantum Gravity20 , pg. 3413-3426, (2003). This article was selected for the “Institute of Physics Selected” and later for the Highlights 2003 y 2004.  https://arxiv.org/abs/gr-qc/0305044
  47. “Comment on Ultraviolet Modifications of Disperssion relations in effective Field Theory” A. Perez y D. Sudarsky, Physical Review Letters C 91, pg. 179101-1: 17901-1, (2003). https://www.ncbi.nlm.nih.gov/pubmed/14611381
  48. “Violation of the weak energy condition: Is it generical in spantaneous scalarization? M. Salgado, D. Sudarsky, y U. Nucamendi,Physical Review D 70, pg. 084027-1: 084027-7 (2004).  https://arxiv.org/abs/gr-qc/0402126
  49. “Lorentz Invariance in Quantum Gravity: A New fine tuning problem?”  J. Collins, A. Perez, D. Sudarsky, L. Urrutia, y H. Vucetich  Physical Review Letters 93, pg. 191301- 1:191301-4, (2004). https://arxiv.org/abs/gr-qc/0403053
  50. “Towards a New Approach to Quantum Gravity Phenomenology”, A. Corichi y D. Sudarsky, International Journal of Modern Physics D 14, Vol 10 ,pg. 1685-1698, (2005). https://arxiv.org/abs/gr-qc/0503078
  51. “Radiative effects and Dimension 5 operators Arising from Quantum Gravity”, A. Perez, y D. Sudarsky General Relativity and Gravitation 37, pg. 813-816, (2005)https://link.springer.com/article/10.1007/s10714-005-0065-4
  52. “On The Puzzle of Bremsstrahlung as described by co-accelerated Observers”, I. Peña, C. Chryssomalakos, A. Corichi y D. Sudarsky, Physical Review D 72, pg. 084018-1:084018-18, (2005). https://arxiv.org/abs/gr-qc/0507040
  53. “Perspectives on Quantum Gravity Phenomenology” D. Sudarsky International Journal of Modern Physics D 1 pg. 2069-2094, (2005). https://arxiv.org/abs/gr-qc/0512013
  54. “On the Quantum Mechanical Origin of the Seeds of Cosmic Structure” A. Perez, H . Sahlmman, y D. Sudarsky, Classical and Quantum Gravity 23 pg. 2317-2354 (2006). https://arxiv.org/abs/gr-qc/0508100
  55. “Numerical evolution of scalar field soliton”, M. Alcubierre , J.A. González, M. Salgado M, y D. Sudarsky Rev. Mex. Fís. Supl. 53 (2), pg. 58-62, (2007). http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S0035-001X2007000800008
  56. “The Neutron as an Alternative Explanation for the Trans GZK Cosmic Rays” A. de Unanue, S. Sahu, y D. Sudarsky, Modern Physics Letters A 22 pg. 2593-2603 (2007). https://arxiv.org/abs/hep-ph/0605239
  57. “Unspeakables and the Epistemological path towards Quantum Gravity” D. Sudarsky, artículo invitado para un número especial “GRF2007 Special Issue of ” International Journal of Modern Physics D 17, pg. 425-443, (2008)https://arxiv.org/abs/0712.3242
  58. “Quantum Gravity Phenomenology without Lorentz Invariance Violation: a detailed proposal”, Yuri Bonder y Daniel Sudarsky,Classical and Quantum Gravity 25, pg.105017, (2008)https://arxiv.org/abs/0709.0551
  59. “Phenomenological Analysis of Quantum Collapse as Source of the Seeds of Cosmic Structure”, Adolfo de Unánue y Daniel Sudarsky, Physics Review D 78, pg.043510 (2008). https://arxiv.org/abs/0801.4702
  60. “Unambiguous Quantum Gravity Phenomenology Respecting Lorentz Symmetry” Yuri Bonder y Daniel Sudarsky, Reports on Mathematical Physics 64,pg. 169 (2009)https://arxiv.org/abs/0811.1229
  61. “The slow roll condition and the amplitude of the primordial spectrum of cosmic fluctuations: Contrasts and similarities of standard account and the “collapse scheme””. Gabriel León & Daniel Sudarsky, Classical and Quantum Gravity 27, pg. 225017 (2010).https://arxiv.org/abs/1003.5950
  62. “Shortcomings in the Understanding of Why Cosmological Perturbations Look Classical”, Daniel Sudarsky, International Journal of Modern Physics D 20, 509, (2011); arXiv:0906.0315 [gr-qc]https://arxiv.org/abs/0906.0315
  63. “On the symmetry of the vacuum in theories with spontaneous symmetry breaking”, Alejandro Perez & Daniel Sudarsky,International Journal of Modern Physics A, 26, No. 9, 1493, (2011); arXiv: 0811.3181 [hep-th]https://arxiv.org/abs/0811.3181
  64. “Can we learn something about the quantum/gravity interface from the primordial fluctuation spectrum?”, Daniel Sudarsky, International Journal of Modern Physics D Vol. 20, No. 5, 821-838, (2011)https://www.worldscientific.com/doi/abs/10.1142/S0218271811019165?journalCode=ijmpd
  65. “Multiple quantum collapse of the inflaton field and its implications on the birth of cosmic structure”, Gabriel León, Adolfo De Unanue, Daniel Sudarsky, Classical and Quantum Gravity, 28, pg. 155010 (2011); arXiv:1012.2419 [gr-qc].
    https://arxiv.org/abs/1012.2419
  66. “Space-time variation of the electron-to-proton mass ratio in a Weyl model”, Susana J. Landau, Florencia Teppa Pannia, Yuri Bonder, & Daniel Sudarsky, Astroparticle Physics 35, 377, (2012); arXiv:1010.6233 [astro-ph]. https://arxiv.org/abs/1010.6233
  67. “Novel possibility of nonstandard statistics in the inflationary spectrum of primordial inhomogeneities”, Gabriel León García, Daniel Sudarsky, Sigma 8, 024, (2012)https://arxiv.org/abs/1109.0052
  68. “Cosmological constraints on nonstandard inflationary quantum collapse models” Susana J. Landau, Claudia G. Scoccola, Daniel Sudarsky, Physics Review D 85, 123001, (2012). arXiv:1112.1830 [astro-ph.CO]https://arxiv.org/abs/1112.1830
  69. “Operational Geometry on de Sitter Spacetime”, Pedro Aguilar, Yuri Bonder, Chryssomalis Chryssomalakos, Daniel Sudarsky. Mod. Phys. Lett. A , 27, No. 23, 125013, (2012); arXiv:1205.0501 [gr-qc]. https://arxiv.org/abs/1205.0501
  70. “Towards a formal description of the collapse approach to the inflationary origin of the seeds of cosmic structure”, Alberto Diez-Tejedor, & Daniel Sudarsky, JCAP. 045, 1207, (2012). arXiv:1108.4928 [gr-qc] https://arxiv.org/abs/1108.4928
  71. “The collapse of the wave function in the joint metric-matter quantization for inflation”, Alberto Diez-Tejedor, Gabriel León García , Daniel Sudarsky, Gen. Rel. & Grav. , Volumen 44, Issue 12, 2965, (2012). arXiv:1106.1176 [gr-qc].  https://arxiv.org/abs/1106.1176
  72. “Experimental search for a Lorentz invariant space-time granularity: Possibilities and bounds”, Pedro Aguilar, Yuri Bonder,& Daniel Sudarsky, Physics Review D 87, 064007 (2013)https://arxiv.org/abs/1210.5223
  73. “Continuous spontaneous localization wave function collapse model as a mechanism for the emergence of cosmological asymmetries in inflation”, Pedro Cañate, Philip Pearle, & Daniel Sudarsky, Physics Review D, 87, 104024 (2013); arXiv:1211.3463[gr-qc] https://arxiv.org/abs/1211.3463
  74. “Quantum Origin of the Primordial Fluctuation Spectrum and its Statistics”, Gabriel León García, Susana J. Landau, & Daniel Sudarsky, Physics Review D 88 023526 (2013); arXiv:1107.3054 [astro-ph.CO]. https://arxiv.org/abs/1107.3054
  75. “Testing the Equivalence Principle with Unstable Particles”, Y. Bonder, E. Fischbach, H. Hernandez-Coronado, D.E. Krause, Z. Rohrbach, & D. Sudarsky, Physics Review D 87, 125021 (2013).  https://arxiv.org/abs/1305.2450
  76. “On the Consistency of the Consistent Histories Approach to Quantum Mechanics”, Elias Okon & Daniel Sudarsky, Foundations of Physics 44, 19-33 (2014); arXiv 1301.2586. https://arxiv.org/abs/1301.2586 
  77. “Benefits of Objective Collapse Models for Cosmology and Quantum Gravity”, Elias Okon & Daniel Sudarsky, Foundations of Physics 44 114-143, (2014); arXiv:1309.1730v1 [gr-qc]https://arxiv.org/abs/1309.1730
  78. “On the possibility of measuring the Unruh effect”, Igor Peña & Daniel Sudarsky, Foundations of Physics 44, 6, 689-708 (2014). https://arxiv.org/abs/1306.6621
  79. “Measurements according to the ‘Consistent Quantum Theory”, Elias Okon & Daniel Sudarsky, Studies in History and Philosophy of Modern Physics, 48, Part A, 7-12, (2014) https://arxiv.org/abs/1309.0792
  80. “The Black Hole Information Paradox and the Collapse of the Wave Function”, Elias Okon & Daniel Sudarsky. Foundations of Physics 45, Issue 4, 461-470 (2015)https://arxiv.org/abs/1406.2011
  81. “Inhomogeneities from quantum collapse scheme without inflation”, Gabriel R. Bengochea, Pedro Cañate, & Daniel Sudarsky, Physical Letters B 743, 484-491(2015)https://www.sciencedirect.com/science/article/pii/S0370269315001793
  82. “Origin of structure: Statistical characterization of the primordial density fluctuations and the collapse of the wave function”, Gabriel León & Daniel Sudarsky, JCAP 06, 020 (2015).  https://arxiv.org/abs/1503.01417
  83. “Non-Paradoxical Loss of Information in of Black hole evaporation in Collapse theories”, Sujoy Modak, Leonardo Ortiz, Igor Peña & Daniel Sudarsky, Physics Review D 91, 12, 124009 (2015).  https://arxiv.org/abs/1408.3062
  84.  “Loss of Information in Black hole evaporation with no paradox”, Sujoy Modak, Leonardo Ortiz, Igor Peña & Daniel Sudarsky, General Relativity and Gravitation 47 , 120 (2015)https://arxiv.org/abs/1406.4898
  85.  “Can gravity account for the emergence of classicality?”, Yuri Bonder, Elias Okon & Daniel Sudarsky Physics Review D 92, 124050, (2015). https://arxiv.org/abs/1509.04363
  86. “The Consistent Histories Formalism and the Measurement Problem”, E. Okon & D. Sudarsky Studies in History and Philosophy of Modern Physics 52, pg 217-222 (2015); arXiv:1504.03231 quant-phhttps://arxiv.org/abs/1504.03231
  87. “Comment on ” Universal decoherence due to gravitational time dilation”, Yuri Bonder, Elias Okon & Daniel Sudarsky Nature 12, 2, (2016)https://arxiv.org/abs/1507.05320
  88. “Less Decoherence and More Coherence in Quantum Gravity, Inflationary Cosmology and Elsewhere”, E. Okon,& D. Sudarsky, Foundations of Physics 46(7), 852-879, (2016). https://arxiv.org/abs/1512.05298
  89. “Relativistic collapse dynamics and black hole information loss”, Daniel Bedingham, Sujoy K. Modak, & Daniel Sudarsky Physics Review D, 94 no.4, 045009 (2016); arXiv:1604.06537 [gr-qc]https://arxiv.org/abs/1604.06537
  90.  “A (not so?) novel explanation for the very special initial state of the universe”, Elias Okon & Daniel Sudarsky, Class. & Quant. Grav. 33 no.22, 225015 (2016); arXiv:1602https://arxiv.org/abs/1602.07006
  91. “Dark energy as the weight of violating energy conservation”, Thibaut Josset, Alejandro Perez , Daniel Sudarsky , Physical Review Letters 118, 021102 (2017), seleccionado para ”Editor’s Suggestion”; arXiv:1604.04183 [gr-qc]https://arxiv.org/abs/1604.04183
  92. “Black Holes, Information Loss and the Measurement Problem”, Elias Okon, Daniel Sudarsky, Foundations of Physics 47, 120 (2017); arXiv:1607.01255 [gr-qc] .https://arxiv.org/abs/1607.01255
  93. “Interpretations of Quantum Theory in the Light of Modern Cosmology”, Mario Castagnino, Sebastian Fortin, Roberto Laura & Daniel Sudarsky, Foundations of Physics, Volume 47, Issue 11, 1387-1422, (2017); arXiv:1412.7576 [gr-qc]https://arxiv.org/abs/1412.7576
  94. “Reassessing the link between B-modes and inflation”, Gabriel León García,  Abhishek Majhi, Elias Okon, & Daniel Sudarsky, Physics Review D 96, 101301(R) (2017); arXiv:1607.03523 [gr-qc]. https://arxiv.org/abs/1607.03523
  95. “Generally covariant dynamical reduction models and the Hadamard condition”, Benito A. Juárez-Aubry, Bernard S. Kay, & Daniel Sudarsky, Physics Review D, 97, 025010 (2018); arXiv:1708.09371 [gr-qc]. https://arxiv.org/abs/1708.09371
  96. “El Formalismo 3+1 en Relatividad General y la Descomposición Tensorial Completa”, Tonatiuh Miramontes & Daniel Sudarsky, Revista Mexicana de Física E 64 108-126 (2018). https://rmf.smf.mx/ojs/rmf-e/article/view/271
  97. “Losing stuff down a black hole”, Elias Okon & Daniel Sudarsky, Foundations of Physics 48, 411-428, (2018); arXiv:1710.01451 [gr-qc]https://arxiv.org/abs/1710.01451
  98. “Revisiting Higgs inflation in the context of collapse theories”, Saul Rodriguez & Daniel Sudarsky, JCAP 03, 006 ( 2018); arXiv:1711.04912-v2 [gr-qc]. https://arxiv.org/abs/1711.04912
  99.  “Equivalence Principle in Chameleon Models” Lucila Kraiselburd, Susana J. Landau, Marcelo Salgado, Daniel Sudarsky, Héctor Vucetich, Physics Review D 97, 104044 (2018); arXiv:1511.06307 [gr-qc].https://arxiv.org/abs/1511.06307
  100. “Extracting Geometry from Quantum Spacetime: Obstacles down the road” Yuri Bonder, Chryssomalis Chryssomalakos, & Daniel Sudarsky, Foundations of Physics, pg. 1, (2018); arXiv:1706.08221 [gr-qc].  https://arxiv.org/abs/1706.08221
  101.  “Expectation of primordial gravity waves generated during inflation” Gabriel León, Abhishek Majhi, Elias Okon, & Daniel Sudarsky, Physics Review D 98 no.2, 023512 (2018); arXiv:1712.02435 [gr-qc]. https://arxiv.org/abs/1712.02435
  102. “Collapse of the wavefunction, the information paradox and backreaction” Sujoy K. Modak, & Daniel Sudarsky, European Physical Journal C, 78 no.7, 556 (2018); arXiv:1711.01509 [gr-qc]. https://arxiv.org/abs/1711.01509
  103.  “A microscopic model for an emergent cosmological constant” Alejandro Perez, Daniel Sudarsky & James D. Bjorken, awarded with the second place in the essay contest  of GRAVITY RESEARCH FOUNDATION 2018. International Journal of Modern Physics D 27 no.14, 1846002 (2018). arXiv:1804.07162 [gr-qc]https://arxiv.org/abs/1804.07162
  104. “Semiclassical Self Consistent Treatment of the Emergence of Seeds of Cosmic Structure. The second order construction”, Pedro Cañate, Erandy Ramirez,& Daniel Sudarsky, JCAP 043 no.08, 1808 (2018); arXiv:1802.02238 [gr-qc]. https://arxiv.org/abs/1802.02238
  105. “Constraining quantum collapse inflationary models with current data: The semiclassical approach”, María Pía Piccirilli, Gabriel León, Susana J. Landau, Micol Benetti, & Daniel Sudarsky, International Journal of Modern Physics D 28 no.02, 1950041 (2019); arXiv:1709.06237 [astro-ph.CO].  https://arxiv.org/abs/1709.06237
  106. “Thick shell regime in the chameleon two-body problem” Lucila Kraiselburd, Susana Landau, Marcelo Salgado, Daniel Sudarsky & Héctor Vucetich, Physics Review D 99, 083516 (2019)https://arxiv.org/abs/1904.05431
  107. “Dark energy from quantum gravity discreteness ”, Alejandro Perez & Daniel Sudarsky. arXiv:1711.05183 [gr-qc] Physical Review Letters 122, 221302 (2019) .https://arxiv.org/abs/1711.05183
  108. “The fate of conservation laws at the interface of quantum theory and gravitation”, Tim Maudlin, Elias Okon & Daniel Sudarsky. En prensa en Studies in History and Philosophy of Modern Physics; arXiv:1910.06473 [gr-qc] . https://arxiv.org/abs/1910.06473
  109. "Can the quantum fluctuations really solve the cosmological constant problem?"  Gabriel R. Bengochea, Gabriel León, Elias Okon & Daniel Sudarsky.  The European Physical Journal C 80, article number: 18 (2020).  https://arxiv.org/abs/1906.05406
  110. “Semiclassical theories as initial value problems”,  Benito A. Juarez-Aubry, Tonatiuh Miramontes, & Daniel Sudarsky, Journal of Mathematical Physics 61, 032301 (2020).  https://arxiv.org/abs/1907.09960
  111. "Discussions about the landscape of possibilities for treatments of cosmic inflation involving continuous spontaneous localization models", G. Bengochea, G. León, P. Pearle, & D. Sudarsky arXiv:2008.05285. European Physical Journal C 80, 1021 (2020). https://arxiv.org/abs/2008.05285
  112. “Resolving the H0 tension with diffusion” Alejandro Perez, Daniel Sudarsky, & Edward Wilson-Ewing, e-Print: arXiv:2001.07536 [astro-ph.CO]. Selected as “Editor's Choice” General Relativity and Gravitation 57, 7, (2021). https://www.springer.com/gp/livingreviews/relativity/news/grg-editors-choice-resolving-the-h0-tension-with-diffusion/18750802
  113. “On Superdeterministic Rejections of Settings Independence” Gerardo S. Ciepielewski, Elias Okón, & Daniel Sudarsky, arXiv:2008.00631, in publication process on British Journal for the Philosophy of Science. https://arxiv.org/abs/2008.00631
  114. “Critical review of prevailing explanations for the emergence of classicality in cosmology” J. Berjon, E. Okon, D. Sudarsky, Physics Review D . 103, No 4, 043521, (2021) https://arxiv.org/abs/2009.09999 .
  115. “Black holes, Planckian granularity, and the changing cosmological constant ”, Alejandro Perez & Daniel Sudarsky. arXiv:1911.06059 [gr-qc]). In press in General Relativity and Gravitation. https://arxiv.org/abs/1911.06059
  1. “Lorentz Invariance Violation and its Role in Quantum Gravity Phenomenology” J. Collins, A. Perez and D. Sudarsky, in “Approaches To Quantum Gravity”, pg. 528-547 (Daniele Oriti Ed.), Cambridge University Press (2009)https://doi.org/10.1017/CBO9780511575549
  2. “Quantum Origin of Cosmological Structure and Dynamical Reduction Theories”, Daniel Sudarsky, in “ Philosophy of Cosmology ” pg. 330-355 (K. Chamcham, J. Silk, J. D. Barrow, S. Sunders eds.), Cambridge University Press (2017). https://doi.org/10.1017/9781316535783
  3.  “The weight of collapse: dynamical reduction models in general relativistic contexts” Elias Okon & Daniel Sudarsky , as a chapter of the book "Collapse of the Wave Function: Models, Ontology, Origin, and Implications", Shan Gao editor, Cambridge University Press (2018). e-Print: arXiv:1701.02963 [gr-qc]  https://doi.org/10.1017/9781316995457
  4. “Spontaneous Collapse Theories and Cosmology” Daniel Sudarsky, capítulo del libro “Do Wave Functions jump? Perspectives of the Work of Gian Carlo Ghirardi, (Fundamental Theories of Physics, 198) Springer 2021 ( Editors: Allori, V., Bassi, A., Drr, D., & Zanghi, N. ). https://www.springer.com/gp/book/9783030467760

     
  1.  “The Fifth Force”, E. Fischbach, D. Sudarsky, A. Szafer, C. Talmadge, y S. H. Aronson, Proceedings of the XXII International Conference on High Energy Physics, Berkeley, July 1986, editado por S. C. Loken (World Scientific, Singapore, 1987), pg. 1021-1031. http://inspirehep.net/record/256605?ln=es
  2. “A New Force in Nature?”, E. Fischbach, D. Sudarsky, A. Szafer, C. Talmadge, y S. H. Aronson, Proceedings of the 2nd Conference on Intersections between Particle and Nuclear Physics,[Lake Louise, Canada, 26-32 May 1986], edited by D. Geesaman, American Institute of Physics Conference Proceedings. http://cds.cern.ch/record/111340
  3.  “The Role of Neutral Kaon Experiments in the Search for New Forces”, S. H. Aronson, E. Fischbach, D. Sudarsky y C. Talmadge, in Festschrift in Honor of Val Telegdi, edited by K. Winter (Elsever Science Publishers B. V., 1988), pg. 1-16. http://inspirehep.net/record/272516
  4. “The Compatibility of Gravity and Kaon Results in the Search for New Forces”, S. Aronson, E. Fischbach, D. Sudarsky y C. Talmadge, in  Searches for New and Exotic Phenomena, Proceedings of the VIIth Moriond Workshop, Les Arcs, France January of 1988, edited by Fackler and J. Thanh (Editions Frontiers, Gif-sur-Yvette, 1988) pg. 593-602. http://inspirehep.net/record/256800?ln=es
  5. “Kaons, Hyperphotons, and the Fifth Force”, S. Aronson, H. Cheng, E. Fischbach, D. Sudarsky, C. Talmadge, y J. Trampetic, in Proceedings of the 1988 Meeting of the Division of Particles and Fields, Storrs Connecticut, August 1988, editado por K. Haller (World Scientific), pg. 904-908. https://www.barnesandnoble.com/w/storrs-meeting-d-g-caldi/1120180636
  6. “Alternative Models of the Fifth Force”, C. Talmadge, E. Fischbach y D. Sudarsky, in Proceedings of the VIIth Moriond Workshop, Les Arcs, Francia, January 1989, editado por O. Fackler y J. Thanh Van (Editions Frontiers, Gif-sur-Yvette, 1989) pg. 445-458.http://inspirehep.net/record/256800?ln=es
  7. “New Mechanism for Constraining Macroscopic Ranged Pseudoscalar Forces”, D. Krause, E. Fischbach, C. Talmadge, D. Sudarsky y D. Tadic , en Proceedings of the VIIIth Moriond Workshop, Les Arcs, France, January 1993.
  8. “Properties of Old and New Black Hole Spacetimes”, D. Sudarsky, en Proceedings of the VIIIth Latin-American Simposium on Relativity Gravitation, Aguas de Lindoa, Sao Paulo, Brazil, July 1993 pg 237-250. http://inspirehep.net/record/968813?ln=es
  9.  “The Question of Black Hole Hair In Einstein-Higgs Theory”, D. Sudarsky, in the Memories of the First Mexican Shool in Gravitation and Physical Mathematics, Guanajuato, December 1994.
  10. “ Black Hole Hair: A Review” Dario Núñez, Hernando Quevedo and Daniel Sudarsky, published in Proceedings of the Heraeus Seminar on Black Holes: Theory and Observation Bad Honnef, Germany, August of 1997. Edited by F. W. Hehl y R. Metzler (Springer, 1998). https://www.springer.com/gp/book/9783540651581
  11. “Spherical Black Holes cannot Support Scalar Hair”, D. Sudarsky y T. Zannias, in Proceedings of the Eighth Marcel Grossmann Meeting, (T. Piran ed.), World Scientific, Singapore, (1999) 554-556 (Part A). http://inspirehep.net/record/970368?ln=es
  12. “The ADM mass of Quasi-Asymptotically Flat Spacetimes”, U. Nucamendi y D. Sudarsky, in Proceedings of the Eighth Marcel Grossmann Meeting, (T. Piran ed.), World Scientific, Singapore, (1999) 288-290 (Part A). http://inspirehep.net/record/970368?ln=es
  13. “Radiation By Static Sources Outside a Static Black Hole?”, A. Higuchi, G. Matsas y D. Sudarsky, in Proceedings of the Eighth Marcel Grossmann Meeting, (T. Piran ed.), World Scientific, Singapore, (1999) 812-814 (Part A). http://inspirehep.net/record/970368?ln=es
  14. “The oscillating G model: a possible explanation for the apparent periodicity in the galaxy distribution and for the cosmological non-baryonic matter”, H. Quevedo, M.Salgado y D. Sudarsky, en Proceedings of the Eighth Marcel Grossmann Meeting, (T. Piran ed.), World Scientific, Singapore, (1999) 1444-1446 (Part B). http://inspirehep.net/record/970368?ln=es
  15. Interaction of Hawking radiation with static scalar sources and electric charges outside Schwarzschild black holes”, L.C.B. Crispino, A. Higuchi, G.E.A. Matsas y D. Sudarsky en “ The Casimir effect 50 years latter” (4th workshop on Quantum FieldTheory under the influence of external conditions, September 14-18 (1998), Leipzig, Germany), p.351-355, ed. Michael Bordag, (World Scientific, 1999) http://inspirehep.net/record/1759423
  16. “Global monopoles non-minimally coupled to gravity and astrophysical implications” Ulises Nucamendi, Marcelo Salgado y Daniel Sudarsky Proceedings of the CAPP2000, Verbier, Switzerland, 2000. http://inspirehep.net/record/560540
  17. Periodicity in the Distribution of Galaxies and its Interpretation” D. Sudarsky, M.Salgado, H.Quevedo, y J.A. González, send to published in the memories of the Conference Cosmology 2000, Lisboa, Portugal, July 2000.
  18. “Hair from the Isolated Horizon Perspective”, A. Corichi y D. Sudarsky, en Proceedings of the Nineth Marcel Grossmann Meeting, (T. Piran ed.), World Scientific, Singapore, (2002) 1540-1543 (Part B).https://www.worldscientific.com/worldscibooks/10.1142/4977
  19. “Does an Intrinsic length Scale Generate Periodicity in the Distribution of Galaxies?”, J.A. González, H. Quevedo, M. Salgado, y D. Sudarsky, en Proceedings of the Nineth Marcel Grossmann Meeting, (T. Piran ed.), World Scientific, Singapore, (2002) 2085-2086 (Part C). https://www.worldscientific.com/worldscibooks/10.1142/4977
  20. “Nonminimal Global Monopoles and Astrophysical Implications” U. Nucamendi, M.Salgado, y D. Sudarsky, en Proceedings of the Nineth Marcel Grossmann Meeting, (T. Piran ed.), World Scientific, Singapore, (2002) 1652-1653 (Part B). https://www.worldscientific.com/worldscibooks/10.1142/4977
  21. “Understanding Hairy Black Holes with the Isolated Horizon Formalism” D. Sudarsky, in the memories of the “First Mexican Meeting on Mathematical and Experimental Physics”, pg. 143-153 (Eds A. Macias, F. Uribe y E. Diaz), (Kluwer Academic/Plenum Publishers 2002).
  22. “On the assignment of Entropy to Black Holes”, D. Sudarsky, in "Quantum Gravity, From Theory to Experimental search” Lecture Notes in Physics, Springer (2003), 323-334, (Eds. D. Giulini, C. Keifer, C. Lämmerzahl). https://www.springer.com/gp/book/9783540408109
  23. “Quantum Gravity Induced Granularity of Space-time and Lorentz Invariance Violation ”, D. Sudarsky, en memorias del “ Third Meeting on CPT and Lorentz Symmetry”, World Scientific (2005), 201-210, ( Ed V.A. Kostelecky). http://adsabs.harvard.edu/abs/2005cls..conf.....K
  24. “Cosmic sensor violation, Big Crunch, or none of the above?” M. Alcubierre, J, A. González, M. Salgado y D. Sudarsky. Memorias del “Second Mexican Meeting on Mathematical and Experimental Physics”, México D.F., September 2004 AIP Conf.Proc. 758, 176-181, (2005). http://inspirehep.net/record/976251/
  25. “On the Proposals of Lorentz Invariance Violation Resulting From Quantum Gravitational Granularity of Space-Time” D. Sudarsky y J. A. Caicedo, Memories of “6th Mexican School on Gravitation and Mathematical Physics: Approaches to Quantum Gravity”, Playa del Carmen, Quintana Roo, Mexico, 21-27 Nov 2004. J.Phys.Conf.Ser.24, 69-76, (2005). https://iopscience.iop.org/article/10.1088/1742-6596/24/1/E01.
  26. “The Seeds Of Cosmic Structure as a Door To New Physics”, prepared for the memories of the conference ”Recent Developments in Gravity NEB XII ”, Napflio Greece June 2006. J. Phys. Conf. Ser.68, 012029, (2007). e-Print: gr-qc/0612005 https://iopscience.iop.org/article/10.1088/1742-6596/68/1/011001
  27. “A path towards quantum gravity phenomenology”, prepared for the memories of the conference ”ERE 2006”, Palmas de Mallorca España, September 2006. J.Phys.Conf.Ser.66, 012037, (2007). https://iopscience.iop.org/article/10.1088/1742-6596/66/1/012037
  28. “A signature of Quantum Gravity at the Source of the Seeds Of Cosmic Structure”, prepared for the memories of the conference ”DICE 2006”, Piombino Italia, Septiembre 2006. J. Phys. Conf. Ser.67, 012054, (2007). e-Print: gr-qc/0701071 https://arxiv.org/abs/gr-qc/0701071
  29. “The Seeds Of Cosmic Structure as a door to Quantum Gravity Phenomena”,  in the memories of the conference “From Quantum to emergent Gravity: Theory and Phenomenology”, SISSA, Trieste, Italy, June 11-15 2007. Publicado en PoS QG-PH, 038, (2007). e-Print: arXiv:0712.2795 [gr-qc]https://arxiv.org/abs/0712.2795
  30. “The Seeds of Cosmic Structure: a Phenomenological Approach”, Daniel Sudarsky y Adolfo de Unanue, en “Proceedings of the Third International Meeting on Gravitation and Cosmology” Morelia, Michoacán (México), 26- 30 Mayo 2008, AIP Conference Proceedings Volume 1083 GRAVITATION AND COSMOLOGY. (Eds; A. Herrera-Aguilar, F. S. Guzmán Murillo, U. Nucamendi Gómez, & Israel Quiros); ISBN: 978-0-7354-0614-8 https://aip.scitation.org/doi/10.1063/1.3058573
  31. “A window To Quantum Gravity Phenomena in the Emergence of the Seeds of Cosmic Structure” Daniel Sudarsky & Adolfo de Unanue, prepared for the prodedures of the conference “DICE 2008”, Castiglioncello, Italia, September 26, 2008. Published in J. Phys. Conf. Ser. 174:012059,(2009). arXiv:0901.2884 [gr-qc]. https://arxiv.org/abs/0901.2884
  32. The quantum origin of the seeds of cosmic structure: The case for a missing link”,Prepared for the memories of  VIII Escuela de la División de Gravitación y Física- Matemática de la Sociedad Mexicana de Física: “Speakable and unspeakable in gravitational physics”, Playa del Carmen Quintana Roo, México, December 9 2009. Published in AIP Conf.Proc. 1256, 107-121, (2010). http://adsabs.harvard.edu/abs/2010AIPC.1256..107S
  33. “Searching for space-time granularity: analyzing a concrete experimental setup”, Yuri Bonder & Daniel Sudarsky, Preparado para las memorias de la VIII Escuela de la División de Gravitación y Física-Matemática de la Sociedad Mexicana de Física: “Speakable and unspeakable in gravitational physics”, Playa del Carmen Quintana Roo, México,  December 9 2009. Published in AIP Conf.Proc. 1256, 157-163, (2010). e-Print: arXiv:1003.5245 [gr-qc].
     https://arxiv.org/abs/1003.5245
  34. “The SSC formalism and the collapse hypothesis for inflationary origin of the seeds of cosmic structure” D. Sudarsky memories of the Sixth International Workshop DICE 2012 “Spacetime - Matter - Quantum Mechanics from the Planck scale to emergent phenomena”, Castiglioncello, Itaila , 17-21 de September 2012. Published in J. Phys.: Conf. Ser. 442, 012071 (2013). https://iopscience.iop.org/article/10.1088/1742-6596/442/1/012071
  35. “The unsolved problem of the emergence of the cosmic structure during Inflation” D. Sudarsky, send for being published in the memories of the conference Third Galileo - Xu Guangqi meeting National Astronomical Observatories- Beijing, Repúbilca Popular China, Octubre 11-15 de 2011. Published in Int.J.Mod.Phys.Conf.Ser. 23 01167 (2013). Ir al artículo
  36.  “The inflationary origin of the seeds of cosmic structure: quantum theory and the need for novel physics”, prepared for the memories of the conference “100 years of Einstein in Prague”, Praga República Checa, 25-29 de Junio 2012. Published as a chapter in the book “General Relativity Cosmology and Astrophysics, Perspectives 100 years after Einstein’s stay in prague” Vol 177 of the series Fundamental Theories of Physics (Springer 2014, Eds. J Bicak & T. Ledvinka), Fundam.Theor.Phys. 177 349-367 (2014) https://link.springer.com/chapter/10.1007/978-3-319-06349-2_17
  37. “The Other Half of Quantum Geometry: a First Glimpse”, P. Aguilar, Y. Bonder, C. Chryssomalakos, and D. Sudarsky. Springer Proceedings Series as part of the memories of the conference “Algebra Geometry and Mathematical Physics”, Mulhouse, France, October 24-26  2011. Published in Springer Proc.Math.Stat. 85, 673-679 (2014). https://link.springer.com/chapter/10.1007/978-3-642-55361-5_41
  38. “Equivalence Principle in Chameleon Models” L. Kraiselburd, S. Landau, M. Salgado, & D. Sudarsky Memorie della Societá Astronomica Italiana 85, 32-37 ( 2014).https://arxiv.org/abs/1511.06307
  39. “Confusing aspects regarding the symmetry of the vacuum state in theories with “spontaneous symmetry breaking”” D. Sudarsky, prepared for the Joint Proceedings of the XV Mexican Workshop on Particles and Fields & the XXX Annual Meeting of the Division of Particles and Fields of the Mexican Physical Society. Publicado en J.Phys.Conf.Ser.761 no.1, 012075 (2016). https://iopscience.iop.org/article/10.1088/1742-6596/761/1/012075
  40.  "Modelling non-paradoxical loss of information in black hole evaporation" Sujoy K. Modak, Daniel Sudarsky. https://arxiv.org/abs/1607.05410