3,217 research outputs found
Linking glacial and future climates through an ensemble of GCM simulations
In this paper we explore the relationships between the modelled climate of the Last Glacial Maximum (LGM) and that for doubled atmospheric carbon dioxide compared to the pre-industrial climate by analysing the output from an ensemble of runs from the MIROC3.2 GCM. <br><br> Our results lend support to the idea in other recent work that the Antarctic is a useful place to look for historical data which can be used to validate models used for climate forecasting of future greenhouse gas induced climate changes, at local, regional and global scales. Good results may also be obtainable using tropical temperatures, particularly those over the ocean. While the greater area in the tropics makes them an attractive area for seeking data, polar amplification of temperature changes may mean that the Antarctic provides a clearer signal relative to the uncertainties in data and model results. Our result for Greenland is not so strong, possibly due to difficulties in accurately modelling the sea ice extent. <br><br> The MIROC3.2 model shows an asymmetry in climate sensitivity calculated by decreasing rather than increasing the greenhouse gases, with 80% of the ensemble having a weaker cooling than warming. This asymmetry, if confirmed by other studies would mean that direct estimates of climate sensitivity from the LGM are likely to be underestimated by the order of half a degree. Our suspicion is, however, that this result may be highly model dependent. Analysis of the parameters varied in the model suggest the asymmetrical response may be linked to the ice in the clouds, which is therefore indicated as an important area for future research
Evidence for Low Extinction in Actively Star Forming Galaxies at z6.5
We present a search for the [CII] 158micron fine structure line (a main
cooling line of the interstellar medium) and the underlying far-infrared (FIR)
continuum in three high-redshift (6.6<z<8.2) star-forming galaxies using the
IRAM Plateau de Bure interferometer. We targeted two Lyman-Alpha-selected
galaxies (Lyman-Alpha-Emitters, LAEs) with moderate UV-based star formation
rates (SFR~20 M_sun/yr; Himiko at z=6.6 and IOK-1 at z=7.0) and a Gamma Ray
Burst (GRB) host galaxy (GRB 090423 at z~8.2). Based on our 3 sigma rest-frame
FIR continuum limits, previous (rest-frame) UV continuum measurements and
spectral energy distribution (SED) fitting, we rule out SED shapes similar to
highly obscured galaxies (e.g. Arp220, M82) and less extreme dust-rich nearby
spiral galaxies (e.g. M51) for the LAEs. Conservatively assuming a SED shape
typical of local spiral galaxies we derive upper limits for the FIR-based star
formation rates (SFRs) of ~70 M_sun/yr, ~50 M_sun/yr and ~40 M_sun/yr for
Himiko, IOK-1 and GRB 090423, respectively. For the LAEs these limits are only
a factor ~3 higher than the published UV-based SFRs (uncorrected for
extinction). This indicates that the dust obscuration in the z>6 LAEs studied
here is lower by a factor of a few than what has recently been found in some
LAEs at lower redshift (2<z<3.5) with similar UV-based SFRs. A low obscuration
in our z>6 LAE sample is consistent with recent rest-frame UV studies of z~7
Lyman-Break-Galaxies (LBGs).Comment: Accepted for publication in the Astrophysical Journa
Very blue UV-continuum slopes of low luminosity z~7 galaxies from WFC3/IR: Evidence for extremely low metallicities?
We use the ultra-deep WFC3/IR data over the HUDF and the Early Release
Science WFC3/IR data over the CDF-South GOODS field to quantify the broadband
spectral properties of candidate star-forming galaxies at z~7. We determine the
UV-continuum slope beta in these galaxies, and compare the slopes with galaxies
at later times to measure the evolution in beta. For luminous L*(z=3) galaxies,
we measure a mean UV-continuum slope beta of -2.0+/-0.2, which is comparable to
the beta~-2 derived at similar luminosities at z~5-6. However, for the lower
luminosity 0.1L*(z=3) galaxies, we measure a mean beta of -3.0+/-0.2. This is
substantially bluer than is found for similar luminosity galaxies at z~4, just
800 Myr later, and even at z~5-6. In principle, the observed beta of -3.0 can
be matched by a very young, dust-free stellar population, but when nebular
emission is included the expected beta becomes >~-2.7. To produce these very
blue beta's (i.e., beta~-3), extremely low metallicities and mechanisms to
reduce the red nebular emission are likely required. For example, a large
escape fraction (i.e., f_{esc}>~0.3) could minimize the contribution from this
red nebular emission. If this is correct and the escape fraction in faint z~7
galaxies is >~0.3, it may help to explain how galaxies reionize the universe.Comment: 5 pages, 5 figures, accepted for publication in Astrophysical Journal
Letter
Average Metallicity and Star Formation Rate of Lya Emitters Probed by a Triple Narrow-Band Survey
We present the average metallicity and star-formation rate of Lya emitters
(LAEs) measured from our large-area survey with three narrow-band (NB) filters
covering the Lya, [OII]3727, and Ha+[NII] lines of LAEs at z=2.2. We select 919
z=2.2 LAEs from Subaru/Suprime-Cam NB data in conjunction with Magellan/IMACS
spectroscopy. Of these LAEs, 561 and 105 are observed with KPNO/NEWFIRM
near-infrared NB filters whose central wavelengths are matched to redshifted
[OII] and Ha nebular lines, respectively. By stacking the near-infrared images
of the LAEs, we successfully obtain average nebular-line fluxes of LAEs, the
majority of which are too faint to be identified individually by narrow-band
imaging or deep spectroscopy. The stacked object has an Ha luminosity of
1.7x10^{42} erg s^{-1} corresponding to a star formation rate (SFR) of 14
M_{sun} yr^{-1}. We place, for the first time, a firm lower limit to the
average metallicity of LAEs of Z>~0.09 Z_{sun} (2sigma) based on the
[OII]/(Ha+[NII]) index together with photo-ionization models and empirical
relations. This lower limit of metallicity rules out the hypothesis that LAEs,
so far observed at z~2, are extremely metal poor (Z<2x10^{-2} Z_{sun}) young
galaxies at the 4sigma level. This limit is higher than a simple extrapolation
of the observed mass-metallicity relation of z~2 UV-selected galaxies toward
lower masses (5x10^{8} M_{sun}), but roughly consistent with a recently
proposed fundamental mass-metallicity relation when the LAEs' relatively low
SFR is taken into account. The Ha and Lya luminosities of our NB-selected LAEs
indicate that the escape fraction of Lya photons is ~12-30 %, much higher than
the values derived for other galaxy populations at z~2.Comment: 21 pages, 15 figures, 8 tables. Accepted for publication in Ap
Linking glacial and future climates through an ensemble of GCM simulations
International audienceIn this paper we explore the relationships between the modelled climate of the Last Glacial Maximum (LGM) and that for doubled atmospheric carbon dioxide compared to the pre-industrial climate by analysing the output from an ensemble of runs from the MIROC3.2 GCM. Our results lend support to the idea in other recent work that the Antarctic is a useful place to look for historical data which can be used to validate models used for climate forecasting of future greenhouse gas induced climate changes, at local, regional and global scales. Good results may also be obtainable using tropical temperatures, particularly those over the ocean. While the greater area in the tropics makes them an attractive area for seeking data, polar amplification of temperature changes may mean that the Anatarctic provides a clearer signal relative to the uncertainties in data and model results. Our result for Greenland is not so strong, possibly due to difficulties in accurately modelling the sea ice extent. The MIROC3.2 model shows an asymmetry in climate sensitivity calculated by decreasing rather than increasing the greenhouse gases, with 80% of the ensemble having a weaker cooling than warming. This asymmetry, if confirmed by other studies would mean that direct estimates of climate sensitivity from the LGM are likely to be underestimated by the order of half a degree. Our suspicion is, however, that this result may be highly model dependent. Analysis of the parameters varied in the model suggest the asymmetrical response may be linked to the ice in the clouds, which is therefore indicated as an important area for future research
Critical dynamics of phase transition driven by dichotomous Markov noise
An Ising spin system under the critical temperature driven by a dichotomous
Markov noise (magnetic field) with a finite correlation time is studied both
numerically and theoretically. The order parameter exhibits a transition
between two kinds of qualitatively different dynamics, symmetry-restoring and
symmetry-breaking motions, as the noise intensity is changed.
There exist regions called channels where the order parameter stays for a
long time slightly above its critical noise intensity. Developing a
phenomenological analysis of the dynamics, we investigate the distribution of
the passage time through the channels and the power spectrum of the order
parameter evolution. The results based on the phenomenological analysis turn
out to be in quite good agreement with those of the numerical simulation.Comment: 27 pages, 12 figure
First Spectroscopic Evidence for High Ionization State and Low Oxygen Abundance in Lya Emitters
We present results from Keck/NIRSPEC and Magellan/MMIRS follow-up
spectroscopy of Lya emitters (LAEs) at z=2.2 identified in our Subaru
narrowband survey. We successfully detect Ha emission from seven LAEs, and
perform a detailed analysis of six LAEs free from AGN activity, two out of
which, CDFS-3865 and COSMOS-30679, have [OII] and [OIII] line detections. They
are the first [OII]-detected LAEs at high-z, and their [OIII]/[OII] ratios and
R23-indices provide the first simultaneous determinations of ionization
parameter and oxygen abundance for LAEs. CDFS-3865 has a very high ionization
parameter (q_{ion}=2.5^{+1.7}_{-0.8}x10^8 cm s^{-1}) and a low oxygen abundance
(12+log(O/H)=7.84^{+0.24}_{-0.25}) in contrast with moderate values of other
high-z galaxies such as Lyman-break galaxies (LBGs). COSMOS-30679 also
possesses a relatively high ionization parameter (q_{ion}=8^{+10}_{-4}x10^7 cm
s^{-1}) and a low oxygen abundance (12+log(O/H)=8.18^{+0.28}_{-0.28}). Both
LAEs appear to fall below the mass-metallicity relation of z~2 LBGs. Similarly,
a low metallicity of 12+log(O/H)<8.4 is independently indicated for typical
LAEs from a composite spectrum and the [NII]/Ha index. Such high ionization
parameters and low oxygen abundances can be found in local star-forming
galaxies, but this extreme local population occupies only ~0.06% of the SDSS
spectroscopic galaxy sample with a number density ~100 times smaller than that
of LAEs. With their high ionization parameters and low oxygen abundances, LAEs
would represent an early stage of galaxy formation dominated by massive stars
in compact star-forming regions. High-q_{ion} galaxies like LAEs would produce
ionizing photons efficiently with a high escape fraction achieved by
density-bounded HII regions, which would significantly contribute to cosmic
reionization at z>6.Comment: 19 pages, 11 figures. Accepted for publication in Ap
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