EuCAPT White Paper: Opportunities and Challenges for Theoretical Astroparticle Physics in the Next Decade

  1. Alves Batista, R.
  2. Erdem, R.
  3. Kavanagh, B.J.
  4. Schmitz, K.
  5. Clough, K.
  6. Coogan, A.
  7. Pagliaroli, G.
  8. Amin, M.A.
  9. Tokareva, A.A.
  10. Millington, P.
  11. Marsh, D.J.E.
  12. Pinol, L.
  13. Trojanowski, S.
  14. Sellentin, E.
  15. Sagunski, L.
  16. Šarčević, N.
  17. Martinelli, M.
  18. Villante, F.L.
  19. Covi, L.
  20. Pizzuti, L.
  21. Böhmer, C.G.
  22. Matthews, J.H.
  23. Martins, C.J.A.P.
  24. Bustamante, M.
  25. Bošnjak, Ž.
  26. Meli, A.
  27. Bartolo, N.
  28. Cutting, D.
  29. Raffelt, G.G.
  30. Vincent, A.
  31. Fialkov, A.
  32. Oikonomou, F.
  33. Benisty, D.
  34. Mifsud, J.
  35. Guépin, C.
  36. Sedrakian, A.
  37. Herrero-Valea, M.
  38. Blasi, P.
  39. Silvestri, A.
  40. Schwetz, T.
  41. Wickenbrock, Arne
  42. Drewes, M.
  43. Evoli, C.
  44. Serenelli, A.
  45. Baumann, D.
  46. Renaux-Petel, S.
  47. Lesgourgues, J.
  48. Cerdeño, D.G.
  49. Edwards, T.D.P.
  50. Levi Said, J.
  51. Grasso, D.
  52. Harz, J.
  53. Galatyuk, T.
  54. Bauswein, A.
  55. Markoff, S.B.
  56. Mena, O.
  57. Marcowith, A.
  58. Porto, R.A.
  59. Lorenz, C.S.
  60. Domènech, G.
  61. Gaggero, D.
  62. Winter, W.
  63. Zeng, M.
  64. Vernizzi, F.
  65. Tamborra, I.
  66. Chianese, M.
  67. Hogg, N.B.
  68. Sahlén, M.
  69. Pascoli, S.
  70. Teresi, D.
  71. Cerri, S.S.
  72. Shalgar, S.
  73. Pound, A.
  74. Barenboim, G.
  75. Ferreira, R.Z.
  76. Rubio Peña, Javier 1
  77. Serpico, P.D.
  78. O'Connor, E.
  79. Bellini, E.
  80. Nippel, K.
  81. Tolos, L.
  82. Uhlemann, C.
  83. Weniger, C.
  84. Bertone, G.
  85. Korsmeier, M.
  86. Quevedo, F.
  87. Davis, A.C.
  88. di Matteo, A.
  89. de Rham, C.
  90. Coloma, P.
  91. Trotta, R.
  92. Koyama, K.
  93. Calderón Bustillo, J.
  94. Paganini, C.F.
  95. Raccanelli, A.
  96. Vink, J.
  97. Pfrommer, C.
  98. Krishnan, B.
  99. Catena, R.
  100. Fasiello, M.
  101. Raveri, M.
  102. Ricciardone, A.
  103. Burrage, C.
  104. Isern, J.
  105. Pani, P.
  106. Niro, V.
  107. Lombriser, L.
  108. Schwaller, P.
  109. Roiban, R.
  110. Byrnes, C.T.
  111. Karchev, K.
  112. Khalifeh, A. Rida
  113. Mapelli, M.
  114. Vitagliano, E.
  115. Fornengo, N.
  116. Calore, F.
  117. Urban, F.R.
  118. Moesta, P.
  119. Hooper, D.C.
  120. Sfakianakis, E.I.
  121. Tanidis, K.
  122. Feeney, S.M.
  123. Hinderer, T.
  124. Cole, A.
  125. Kotera, K.
  126. Gabici, S.
  127. van Vliet, A.
  128. Zell, S.
  129. Sabti, N.
  130. Riotto, A.
  131. Iocco, F.
  132. Manconi, S.
  133. Bringmann, T.
  134. Miller Bertolami, M.M.
  135. Ramirez-Ruiz, E.
  136. Esteban, I.
  137. Dietrich, T.
  138. Mostrar todos los/as autores/as +
  1. 1 Universidad Complutense de Madrid
    info

    Universidad Complutense de Madrid

    Madrid, España

    ROR 02p0gd045

Revista:
White paper of the European Consortium for Astroparticle Theory (EuCAPT)

Año de publicación: 2021

Páginas: 134

Tipo: Informe

DOI: 10.48550/ARXIV.2110.10074 GOOGLE SCHOLAR lock_openAcceso abierto editor

Resumen

Astroparticle physics is undergoing a profound transformation, due to a series of extraordinary new results, such as the discovery of high-energy cosmic neutrinos with IceCube, the direct detection of gravitational waves with LIGO and Virgo, and many others. This white paper is the result of a collaborative effort that involved hundreds of theoretical astroparticle physicists and cosmologists, under the coordination of the European Consortium for Astroparticle Theory (EuCAPT). Addressed to the whole astroparticle physics community, it explores upcoming theoretical opportunities and challenges for our field of research, with particular emphasis on the possible synergies among different subfields, and the prospects for solving the most fundamental open questions with multi-messenger observations.