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Diffusion damping : ウィキペディア英語版
Diffusion damping

In modern cosmological theory, diffusion damping, also called photon diffusion damping, is a physical process which reduced density inequalities (anisotropies) in the early universe, making the universe itself and the cosmic microwave background radiation (CMB) more uniform. Around 300,000 years after the Big Bang, during the epoch of ''recombination'', diffusing photons travelled from hot regions of space to cold ones, equalising the temperatures of these regions. This effect is responsible, along with baryon acoustic oscillations, the Doppler effect, and the effects of gravity on electromagnetic radiation, for the eventual formation of galaxies and galaxy clusters, these being the dominant large scale structures which are observed in the universe. It is a damping ''by'' diffusion, not ''of'' diffusion.〔Hu, Sugiyama & Silk (1996-04-28), p. 2〕

The strength of diffusion damping is calculated by a mathematical expression for the ''damping factor'', which figures into the Boltzmann equation, an equation which describes the amplitude of perturbations in the CMB.〔 The strength of the diffusion damping is chiefly governed by the distance photons travel before being scattered (diffusion length). What affect the diffusion length are primarily the properties of the plasma in question: different sorts of plasma may experience different sorts of diffusion damping. The evolution of a plasma may also affect the damping process.〔 The scale on which diffusion damping works is called the Silk scale and its value corresponds to the size of galaxies of the present day. The mass contained within the Silk scale is called the Silk mass and it corresponds to the mass of the galaxies.〔
==Introduction==
Diffusion damping took place about 13.8 billion years ago,〔
〕 during the stage of the early universe called ''recombination'' or matter-radiation ''decoupling''. This period occurred about 380,000 years after the Big Bang.〔
〕 This is equivalent to a redshift of around ''z'' = 1090. Recombination was the stage during which simple atoms, e.g. hydrogen and helium, began to form in the cooling, but still very hot, soup of protons, electrons and photons that composed the universe. Prior to the recombination epoch, this ''soup'', a plasma, was largely opaque to the electromagnetic radiation of photons. This meant that the permanently excited photons were scattered by the protons and electrons too often to travel very far in straight lines.〔Hu (1995-08-26), p. 6〕 During the recombination epoch, the universe cooled rapidly as free electrons were captured by atomic nuclei; atoms formed from their constituent parts and the universe became transparent: the amount of photon scattering decreased dramatically. Scattering less, photons could diffuse (travel) much greater distances.〔〔Liddle & Lyth (2000-04-13), p. 63, 120〕 There is no significant diffusion damping for electrons, which cannot diffuse nearly as far as photons can in similar circumstances. Thus all damping by electron diffusion is negligible when compared to photon diffusion damping.〔Padmanabhan (1993-06-25), p. 171–2〕
Acoustic perturbations of initial density fluctuations in the universe made some regions of space hotter and denser than others.〔Harrison (1970-05-15)〕 These differences in temperature and density are called ''anisotropies''. Photons diffused from the hot, overdense regions of plasma to the cold, underdense ones: they dragged along the protons and electrons: the photons pushed electrons along, and these, in turn, pulled on protons by the Coulomb force. This caused the temperatures and densities of the hot and cold regions to be averaged and the universe became less anisotropic (characteristically various) and more ''isotropic'' (characteristically uniform). This reduction in anisotropy is the ''damping'' of diffusion damping. Diffusion damping thus damps temperature and density anisotropies in the early universe. With baryonic matter (protons and electrons) escaping the dense areas along with the photons; the temperature and density inequalities were ''adiabatically'' damped. That is to say the ratios of photons to baryons remained constant during the damping process.〔〔Madsen (1996-05-15), p. 99–100〕〔Longair (2008-01-08), p. 355〕〔Jetzer & Pretzl (2002-07-31), p. 6〕〔Rich (2001-06-15), p. 256〕
Photon diffusion was first described in Joseph Silk's 1968 paper entitled "Cosmic Black-Body Radiation and Galaxy Formation",〔Silk (1968-02-01)〕 which was published in ''The Astrophysical Journal''. As such, diffusion damping is sometimes also called Silk damping,〔 though this term may apply only to one possible damping scenario.〔〔Partridge (1995-09-29), p. 302〕〔Bonometto, Gorini & Moschella (2001-12-15), p. 55〕 Silk damping was thus named after its discoverer.〔Madsen (1996-05-15), p. 99–101〕〔〔Hu (1994-06-28), p. 15〕


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