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Theoretical Aspects of Astroparticle Physics, Cosmology and Gravitation - 2019

11–22 Mar 2019
Galileo Galilei Institute for Theoretical Physics, Arcetri, Florence
Europe/Rome timezone

Contribution List

30 out of 30 displayed
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  1. 2. Lecture: Cosmological perturbation theory and structure formation - Lecturer: Vincent Desjacques
    11/03/2019, 11:15

    Lecture 1: The FLRW universe

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  2. 3. Exercise Session: Cosmological perturbation theory and structure formation - Tutor: Titouan Lazeyras
    11/03/2019, 14:30
  3. 4. Lecture: Gravitational waves and compact binaries - Lecturer: Enrico Barausse
    12/03/2019, 09:00

    Lecture 1: General Relativity and the quadrupole formula

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  4. 5. Lecture: Cosmological perturbation theory and structure formation - Lecturer: Vincent Desjacques
    12/03/2019, 11:15

    Lecture 2: Linear cosmological perturbation theory 1

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  5. 6. Excercise Session: Gravitational waves and compact binaries - Tutor: Andrea Maselli
    12/03/2019, 14:30
  6. 10. Lecture: Gravitational waves and compact binaries - Lecturer: Enrico Barausse
    13/03/2019, 09:00

    Lecture 2: A more rigorous derivation of the quadrupole formula

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  7. 11. Lecture: Cosmological perturbation theory and structure formation - Lecturer: Vincent Desjacques
    13/03/2019, 11:15

    Lecture 3: Linear cosmological perturbation theory 2

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  8. 12. Excercise session: Cosmological perturbation theory and structure formation - Tutor: Titouan Lazeyras
    13/03/2019, 14:30
  9. 8. Lecture: Cosmological perturbation theory and structure formation - Lecturer: Vincent Desjacques
    14/03/2019, 09:00

    Lecture 4: Cosmology with massive neutrinos

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  10. 7. Lecture: Gravitational waves and compact binaries - Lecturer: Enrico Barausse
    14/03/2019, 11:15
  11. 9. Exercise Session: Gravitational waves and compact binaries - Tutor: Andrea Maselli
    14/03/2019, 14:30
  12. 13. Lecture: Gravitational waves and compact binaries - Lecturer: Enrico Barausse
    15/03/2019, 09:00

    Lecture 4: The response of an interferometer to gravitational waves

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  13. 14. Lecture: Cosmological perturbation theory and structure formation - Lecturer: Vincent Desjacques
    15/03/2019, 11:15

    Lecture 5: The growth of large scale structure

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  14. 15. Lecture: Gravitational waves and compact binaries - Lecturer: Enrico Barausse
    15/03/2019, 14:30

    Lecture 5: Gravitational-wave detectors and data analysis

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  15. 16. Lecture: Neutrino physics, Lecturer: F. Feruglio
    18/03/2019, 09:00

    Lecture 1: Neutrino Oscillations - theory

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  16. 17. Lecture: Galactic cosmic rays and multimessenger astronomy - Lecturer: Fiorenza Donato
    18/03/2019, 11:15

    Lecture 1: Galactic cosmic rays

    1.1 Generalities on Galactic Cosmic Rays: particles, energies, fluxes
    1.2 Transport of charged particles in the Galaxy, diffusion coefficient
    1.3 Fermi acceleration of second order
    1.4 Fermi acceleration of first order

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  17. 18. Exercise session: Neutrino physics - Tutor: Olcyr Sumensari
    18/03/2019, 14:30
  18. 19. Lecture: Neutrino physics - Lecturer: F. Feruglio
    19/03/2019, 09:00

    Lecture 2: Neutrino Oscillations - data

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  19. 20. Lecture: Galactic cosmic rays and multimessenger astronomy - Lecturer: Fiorenza Donato
    19/03/2019, 11:15

    Lecture 2: Galactic cosmic rays 2

    2.1 Fermi acceleration of first order
    2.2 Convection in the Galaxy
    2.3 Energy losses for nuclei
    2.4 Energy losses for electrons
    2.5 Catastrophic losses

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  20. 21. Exercise session: Galactic cosmic rays and multimessenger astronomy - Tutor: Francesca Calore
    19/03/2019, 14:30
  21. 22. Lecture: Neutrino physics - Lecturer: F. Feruglio
    20/03/2019, 09:00

    Lecture 3: Neutrino Masses

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  22. 23. Lecture: Galactic cosmic rays and multimessenger astronomy - Lecturer: Fiorenza Donato
    20/03/2019, 11:15

    Lecture 3: Galactic cosmic rays 3

    3.1 The transport equation
    3.2 The sources of CRs: SNRs, PWNe, ISM
    3.3 Geometry of the Galaxy
    3.4 Solution to the transport equation
    3.5 Free parameters of the model
    3.6 Species in the Galaxies: nuclei, antinuclei, leptons, gamma-rays

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  23. 25. Exercise session: Neutrino physics - Tutor: Olcyr Sumensari
    20/03/2019, 14:30
  24. 26. Lecture: Neutrino physics - Lecturer: F. Feruglio
    21/03/2019, 09:00

    Lecture 4: Neutrinos and Physics Beyond the Standard Model

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  25. 27. Lecture: Galactic cosmic rays and multimessenger astronomy - Lecturer: Fiorenza Donato
    21/03/2019, 11:15

    Lecture 4: Particle Dark Matter; Indirect detection

    4.1 Particle Dark Matter
    4.2 Dark Matter Density distribution
    4.3 CRs from Dark Matter, alias Indirect DM detection
    4.3.1 Annihilation spectra
    4.4 γ-rays from dark matter annihilation
    4.5 γ-rays: the diffuse emission in the Galaxy
    4.6 The Fermi-LAT sky and its interpretation

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  26. 28. Exercise session: Galactic cosmic rays and multimessenger astronomy - Tutor: Francesca Calore
    21/03/2019, 14:30
  27. 29. Lecture: Neutrino physics - Lecturer: F. Feruglio
    22/03/2019, 09:00

    Lecture 5: Neutrinos and the Flavor Problem

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  28. 30. Lecture: Galactic cosmic rays and multimessenger astronomy - Lecturer: Fiorenza Donato
    22/03/2019, 11:15

    Lecture 5 - Dark Matter indirect detection - More on multiwave- length and multimessenger

    Antimatter in CRs
    Antiprotons: secondaries, primaries, data
    Antideuterons: secondaries, primaries, perspectrives
    Positrons: secondaries, primaries, data
    The radio fluxes
    Anisotropies in charged CRs and gamma rays

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  29. 24. Lunch
  30. 1. Registration