1,806 research outputs found
The Formation of the First Galaxies
The primary concern of this thesis is to understand the formation and
properties of the first galaxies, as well as the influence of the first stars
in terms of radiative, mechanical and chemical feedback. In particular, we
elucidate the role of turbulence, ionizing radiation by massive Population III
stars, mechanical feedback by highly energetic supernovae, and chemical
enrichment. In light of the next generation of ground- and space based
telescopes, we derive their observational signature in terms of recombination
radiation, bremsstrahlung and 21 cm emission. We find that the cumulative 21 cm
signal of the first H II regions will likely be observable by the planned SKA,
while the recombination radiation from the first starbursts might be observable
by JWST. These probes are essential to test the theoretical framework of the
first stars and galaxies and shed some light on this elusive period of cosmic
history.Comment: Ph. D. Thesis, University of Heidelberg, 2009, 212 pages, 55 figures,
pdf available at
http://www.ita.uni-heidelberg.de/~tgreif/thesis.shtml?lang=e
Multifrequency radiation hydrodynamics simulations of H2 line emission in primordial, star-forming clouds
We investigate the collapse of primordial gas in a minihalo with
three-dimensional radiation hydrodynamics simulations that accurately model the
transfer of H2 line emission. For this purpose, we have implemented a
multiline, multifrequency ray-tracing scheme in the moving-mesh code Arepo that
is capable of adaptively refining rays based on the Healpix algorithm, as well
as a hybrid equilibrium/non-equilibrium primordial chemistry solver. We find
that a multifrequency treatment of the individual H2 lines is essential, since
for high optical depths the smaller cross-section in the wings of the lines
greatly increases the amount of energy that can escape. The influence of
Doppler shifts due to bulk velocities is comparatively small, since systematic
velocity differences in the cloud are typically smaller than the sound speed.
During the initial collapse phase, the radially averaged escape fraction agrees
relatively well with the fit of Ripamonti & Abel. However, in general it is not
advisable to use a simple density-dependent fitting function, since the escape
fraction depends on many factors and does not capture the suppression of
density perturbations due to the diffusion of radiation. The Sobolev method
overestimates the escape fraction by more than an order of magnitude, since the
properties of the gas change on scales smaller than the Sobolev length.Comment: 19 pages, 1 table, 10 figures, published in MNRA
On the operation of the chemothermal instability in primordial star-forming clouds
We investigate the operation of the chemothermal instability in primordial
star-forming clouds with a suite of three-dimensional, moving-mesh simulations.
In line with previous studies, we find that the gas at the centre of
high-redshift minihaloes becomes chemothermally unstable as three-body
reactions convert the atomic hydrogen into a fully molecular gas. The
competition between the increasing rate at which the gas cools and the
increasing optical depth to H2 line emission creates a characteristic dip in
the cooling time over the free-fall time on a scale of 100 au. As a result, the
free-fall time decreases to below the sound-crossing time, and the cloud may
become gravitationally unstable and fragment on a scale of a few tens of au
during the initial free-fall phase. In three of the nine haloes investigated,
secondary clumps condense out of the parent cloud, which will likely collapse
in their own right before they are accreted by the primary clump. In the other
haloes, fragmentation at such an early stage is less likely. However, given
that previous simulations have shown that the infall velocity decreases
substantially once the gas becomes rotationally supported, the amount of time
available for perturbations to develop may be much greater than is evident from
the limited period of time simulated here.Comment: 17 pages, 12 figures, accepted for publication in MNRAS, simulation
movie available at http://www.cfa.harvard.edu/~tgrei
Towards the First Galaxies
The formation of the first galaxies at redshifts z~10-15 signaled the
transition from the simple initial state of the universe to one of ever
increasing complexity. We here review recent progress in understanding their
assembly process with numerical simulations, starting with cosmological initial
conditions and modelling the detailed physics of star formation. In particular,
we study the role of HD cooling in ionized primordial gas, the impact of UV
radiation produced by the first stars, and the propagation of the supernova
blast waves triggered at the end of their brief lives. We conclude by
discussing promising observational diagnostics that will allow us to probe the
properties of the first galaxies, such as their contribution to reionization
and the chemical abundance pattern observed in extremely low-metallicity stars.Comment: 12 pages, 14 figures, appeared in "First Stars III", eds. B. O'Shea,
A. Heger and T. Abel, a high resolution version (highly recommended) can be
found at http://www.ita.uni-heidelberg.de/~tgreif/files/gjb07.pd
Recommended from our members
The First Supernova Explosions: Energetics, Feedback, And Chemical Enrichment
We perform three-dimensional smoothed particle hydrodynamics simulations in a realistic cosmological setting to investigate the expansion, feedback, and chemical enrichment properties of a 200M(circle dot) pair-instability supernova in the high-redshift universe. We find that the SN remnant propagates for a Hubble time at z similar or equal to 20 to a final mass-weighted mean shock radius of 2.5 kpc (proper), roughly half the size of the H II region, and in this process sweeps up a total gas mass of 2: 5; 10(5) M-circle dot. The morphology of the shock becomes highly anisotropic once it leaves the host halo and encounters filaments and neighboring minihalos, while the bulk of the shock propagates into the voids of the intergalactic medium. The SN entirely disrupts the host halo and terminates further star formation for at least 200 Myr, while in our specific case it exerts positive mechanical feedback on neighboring minihalos by shock-compressing their cores. In contrast, we do not observe secondary star formation in the dense shell via gravitational fragmentation, due to the previous photoheating by the progenitor star. We find that cooling by metal lines is unimportant for the entire evolution of the SN remnant, while the metal-enriched, interior bubble expands adiabatically into the cavities created by the shock, and ultimately into the voids with a maximum extent similar to the final mass-weighted mean shock radius. Finally, we conclude that dark matter halos of at least M-vir greater than or similar to 10(8) M-circle dot must be assembled to recollect all components of the swept-up gas.Astronom
The effect of cave illumination on bats
Artificial light at night has large impacts on nocturnal wildlife such as bats, yet its effect varies with wavelength of light, context, and across species involved. Here, we studied in two experiments how wild bats of cave-roosting species (Rhinolophus mehelyi, R. euryale, Myotis capaccinii and Miniopterus schreibersii) respond to LED lights of different colours. In dual choice experiments, we measured the acoustic activity of bats in response to neutral-white, red or amber LED at a cave entrance and in a flight room – mimicking a cave interior. In the flight room, M. capaccinii and M. schreibersii preferred red to white light, but showed no preference for red over amber, or amber over white light. In the cave entrance experiment, all light colours reduced the activity of all emerging species, yet red LED had the least negative effect. Rhinolophus species reacted most strongly, matching their refusal to fly at all under any light treatment in the flight room. We conclude that the placement and light colour of LED light should be considered carefully in lighting concepts for caves both in the interior and at the entrance. In a cave interior, red LED light could be chosen – if needed at all – for careful temporary illumination of areas, yet areas important for bats should be avoided based on the precautionary principle. At cave entrances, the high sensitivity of most bat species, particularly of Rhinolophus spp., towards light sources almost irrespective of colour, calls for utmost caution when illuminating cave entrances
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