How Very Massive Metal-Free Stars Start Cosmological Reionization
TL;DR: In this paper, a cosmological Eulerian adaptive mesh refinement radiation hydrodynamical calculations are used to calculate the local Jeans length of the earliest galaxies, which is at least 16 grid cells at all times and as such cover a spatial dynamic range of approx.10(exp 6).
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Abstract: The initial conditions and relevant physics for the formation of the earliest galaxies are well specified in the concordance cosmology. Using ab initio cosmological Eulerian adaptive mesh refinement radiation hydrodynamical calculations, we discuss how very massive stars start the process of cosmological reionization. The models include nonequilibrium primordial gas chemistry and cooling processes and accurate radiation transport in the case B approximation using adaptively ray-traced photon packages, retaining the time derivative in the transport equation. Supernova feedback is modeled by thermal explosions triggered at parsec scales. All calculations resolve the local Jeans length by at least 16 grid cells at all times and as such cover a spatial dynamic range of approx.10(exp 6). These first sources of reionization are highly intermittent and anisotropic and first photoionize the small-scale voids surrounding the halos they form in, rather than the dense filaments they are embedded in. As the merging objects form larger, dwarf-sized galaxies, the escape fraction of UV radiation decreases and the H II regions only break out on some sides of the galaxies, making them even more anisotropic. In three cases, SN blast waves induce star formation in overdense regions that were formed earlier from ionization front instabilities. These stars form tens of parsecs away from the center of their parent DM halo. Approximately five ionizing photons are needed per sustained ionization when star formation in 10(exp 6) stellar Mass halos is dominant in the calculation. As the halos become larger than approx.10(exp 7) Stellar Mass, the ionizing photon escape fraction decreases, which in turn increases the number of photons per ionization to 15-50, in calculations with stellar feedback only. Radiative feedback decreases clumping factors by 25% when compared to simulations without star formation and increases the average temperature of ionized gas to values between 3000 and 10,000 K.
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Citations
Structure of Stationary Photodissociation Fronts
Bruce T. Draine,Frank Bertoldi +1 more
TL;DR: In this article, a multiline UV pumping model was proposed to compare the effect of self-shielding on the overall fluorescent efficiency of the photodissociation front, including the effects of line overlap.
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The birth of a galaxy – III. Propelling reionization with the faintest galaxies
John H. Wise,Vasiliy Demchenko,Martin Halicek,Michael L. Norman,Matthew J. Turk,Tom Abel,Britton D. Smith +6 more
TL;DR: Wise et al. as mentioned in this paper used a cosmological radiation hydrodynamics simulation to find a Thomson scattering optical depth consistent with the latest Planck results at z = 4−6.
The formation and fragmentation of primordial molecular clouds
Tom Abel,Greg L. Bryan,Michael L. Norman +2 more
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TL;DR: In this article, the authors present results from high-resolution three-dimensional adaptive mesh re-nement simulations that follow the collapse of primordial molecular clouds and their subsequent fragmentation within a cosmologically representative volume.
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Simulations of Early Structure Formation: Primordial Gas Clouds
TL;DR: In this paper, the authors used large cosmological simulations to study the origin of primordial star-forming clouds in a Lambda CDM universe, by following the formation of dark matter halos and the cooling of gas within them.
Early galaxy formation and its large-scale effects
Pratika Dayal,Andrea Ferrara +1 more
TL;DR: In this article, the authors combine the information gleaned from different theoretical models/studies to build a coherent picture of the Universe in its early stages which includes the physics of galaxy formation along with the impact that early structures had on large-scale processes such as cosmic reionization and metal enrichment of the intergalactic medium.
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References
First year Wilkinson Microwave Anisotropy Probe (WMAP) observations: Determination of cosmological parameters
David N. Spergel,Licia Verde,Hiranya V. Peiris,Eiichiro Komatsu,M. R. Nolta,Charles L. Bennett,Mark Halpern,Gary Hinshaw,N. Jarosik,Alan J. Kogut,Michele Limon,Michele Limon,S. S. Meyer,Lyman A. Page,Gregory S. Tucker,Gregory S. Tucker,Gregory S. Tucker,Janet L. Weiland,Edward J. Wollack,Edward L. Wright +19 more
TL;DR: In this article, the authors find that the emerging standard model of cosmology, a flat -dominated universe seeded by a nearly scale-invariant adiabatic Gaussian fluctuations, fits the WMAP data.
Wilkinson Microwave Anisotropy Probe (WMAP) three year results: implications for cosmology
David N. Spergel,Rachel Bean,Rachel Bean,Olivier Doré,Olivier Doré,M. R. Nolta,M. R. Nolta,Charles L. Bennett,Charles L. Bennett,Gary Hinshaw,Norman Jarosik,Eiichiro Komatsu,Eiichiro Komatsu,Lyman A. Page,Hiranya V. Peiris,Hiranya V. Peiris,Licia Verde,Licia Verde,M. Halpern,R. S. Hill,A. Kogut,Michele Limon,S. S. Meyer,N. Odegard,Gregory S. Tucker,Jan Weiland,Edward J. Wollack,E. L. Wright +27 more
TL;DR: In this article, a simple cosmological model with only six parameters (matter density, Omega_m h^2, baryon density, BH density, Hubble Constant, H_0, amplitude of fluctuations, sigma_8, optical depth, tau, and a slope for the scalar perturbation spectrum, n_s) was proposed to fit the three-year WMAP temperature and polarization data.
Wilkinson Microwave Anisotropy Probe (WMAP) Three Year Results: Implications for Cosmology
David N. Spergel,R. Bean,O. Doré,M. R. Nolta,Charles L. Bennett,Jo Dunkley,Gary Hinshaw,Norman Jarosik,Eiichiro Komatsu,L. A. Page,Hiranya V. Peiris,Licia Verde,Mark Halpern,Robert S. Hill,A. Kogut,Michele Limon,S. S. Meyer,N. Odegard,G. S. Tucker,Janet Weiland,Edward J. Wollack,Edward L. Wright +21 more
TL;DR: In this article, a simple cosmological model with only six parameters (matter density, Omega_m h^2, baryon density, BH 2, Hubble Constant, H_0, amplitude of fluctuations, sigma_8, optical depth, tau, and a slope for the scalar perturbation spectrum, n_s) was proposed to fit the three-year WMAP temperature and polarization data.
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Neil Gehrels,G. Chincarini,G. Chincarini,Paolo Giommi,Keith O. Mason,John A. Nousek,Alan A. Wells,Nicholas E. White,S. D. Barthelmy,David N. Burrows,L. R. Cominsky,Kevin Hurley,F. E. Marshall,Peter Mészáros,Peter W. A. Roming,Lorella Angelini,Lorella Angelini,L. M. Barbier,Tomaso Belloni,Sergio Campana,P. A. Caraveo,M. M. Chester,O. Citterio,T. L. Cline,Mark Cropper,Jay Cummings,Jay Cummings,A. J. Dean,Eric D. Feigelson,E. E. Fenimore,Dale A. Frail,A. S. Fruchter,Gordon P. Garmire,Keith C. Gendreau,Gabriele Ghisellini,Jochen Greiner,Joanne E. Hill,S. D. Hunsberger,Hans A. Krimm,Hans A. Krimm,Shrinivas R. Kulkarni,Pawan Kumar,F. Lebrun,Nicole M. Lloyd-Ronning,Craig B. Markwardt,Craig B. Markwardt,Barbara J. Mattson,Barbara J. Mattson,Richard Mushotzky,Jay P. Norris,J. P. Osborne,Bohdan Paczynski,David Palmer,H.-S. Park,A. M. Parsons,J. A. Paul,Martin J. Rees,Christopher S. Reynolds,James E. Rhoads,T. P. Sasseen,Bradley E. Schaefer,A. Short,Alan P. Smale,Alan P. Smale,Ian Smith,Luigi Stella,Gianpiero Tagliaferri,Tadayuki Takahashi,Makoto Tashiro,Leisa K. Townsley,Jack Tueller,Martin J. L. Turner,M. Vietri,Wolfgang Voges,Martin Ward,Richard Willingale,F. M. Zerbi,W. W. Zhang +77 more
- 20 Aug 2004
TL;DR: The Swift mission as discussed by the authors is a multi-wavelength observatory for gamma-ray burst (GRB) astronomy, which is a first-of-its-kind autonomous rapid-slewing satellite for transient astronomy and pioneers the way for future rapid-reaction and multiwavelength missions.