289 research outputs found
The influence of sludge retention time on mixed culture microbial fuel cell start-ups
In this work, the start-ups of air-cathode microbial fuel cells (MFCs) seeds with conventional activated
sludge cultivated at different solid retention times (SRTs) are compared. A clear influence of the SRT of the
inoculum was observed, corresponding to an SRT of 10 days to the higher current density exerted, about
0.2 A m 122. This observation points out that, in this type of electrochemical device, it is recommended to
use high SRT seeds. The work also points out that in order to promote an efficient start-up, it is not only
necessary to use high SRT seeds, but also to feed a high COD concentration. When feeding 10,000 ppm
COD and keeping SRT of 10 d differences of current densities up to 0.1 A m 122 were observed within a
cycle. Additionally it was observed that SRT influences direct and indirect electron transfer mechanisms,
being the direct mechanisms the most relevant ones, accounting for more than 95% of the total electricity
production
Chandra Evidence for a Flattened, Triaxial Dark Matter Halo in the Elliptical Galaxy NGC 720
(Abridged) We present an analysis of a Chandra ACIS-S observation of the
elliptical galaxy NGC 720 to verify the existence of a dark matter (DM) halo
and to measure its ellipticity. The ACIS-S3 image reveals over 60 point
sources. For semi-major axes a<~150" (18.2h_{70}^{-1} kpc) the ellipticity of
the diffuse emission is ex ~0.15, which is less than the values 0.2-0.3
obtained from ROSAT because the point sources contaminated the ROSAT values.
The Chandra data confirm the ~20 deg position angle (PA) twist discovered by
ROSAT, but the Chandra twist is more gradual also because of the point sources
contaminating the ROSAT values. Overall the ex and PA values for a<~150" can be
explained by the triaxial model of NGC 720 published by Romanowsky & Kochanek.
Since the optical image displays no substantial isophote twisting, the X-ray PA
twist requires a massive DM halo if the hot gas is in hydrostatic equilibrium.
The mass-follows-light hypothesis is also inconsistent with the Chandra
ellipticities at the 96% (98%) level for oblate (prolate) symmetry. Thus, both
the PA twist and the ellipticities of the Chandra image imply a DM halo
independent of the gas T profile -- evidence that cannot be obviated by
alternative gravity theories such as MOND. The DM density model, rho ~a^{-2},
provides the best fit and gives ellipticities of 0.37 +/- 0.03 (0.36 +/- 0.02)
for oblate (prolate) models. These moderate ellipticities for the DM halo are
inconsistent with both the nearly spherical halos predicted if the DM is
self-interacting and with the highly flattened halos predicted if the DM is
cold molecular gas. These ellipticities may also be too large to be explained
by warm DM, but are consistent with galaxy-sized halos formed in the Lambda-CDM
paradigm.Comment: 14 pages, 4 figures, ApJ, in pres
X-ray Variability in the Young Massive Triple theta2 Ori A
Massive stars rarely show intrinsic X-ray variability. The only O-stars
credited to be intrinsically variable are theta1 Ori C due to effects from
magnetic confinement of its wind, and theta2 Ori A suspected of similar
activity. Early Chandra observations have shown that the most massive star
system in the Orion Trapezium Cluster, theta2 Ori A, shows rapid variability on
time scales of hours. We determine X-ray fluxes and find that the star shows
very strong variability over the last 5 years. We observed a second large X-ray
outburst in November 2004 with the high resolution transmission grating
spectrometer on-board Chandra. In the low state X-ray emissivities indicate
temperatures well above 25 MK. In the high state we find an extended emissivity
distribution with high emissivities in the range from 3 MK to over 100 MK. The
outburst event in stellar terms is one of the most powerful ever observed and
the most energetic one in the ONC with a lower total energy limit of 1.5x10^37
ergs. The line diagnostics show that under the assumption that the line
emitting regions in the low states are as close as within 1 -- 2 stellar radii
from the O-star's photosphere, whereas the hard states suggest a distance of 3
-- 5 stellar radii. The two outbursts are very close to the periastron passage
of the stars. We argue that the high X-ray states are possibly the result of
reconnection events from magnetic interactions of the primary and secondary
stars of the spectroscopic binary. Effects from wind collisions seem unlikely
for this system. The low state emissivity and R-ratios strengthen the
predicament that the X-ray emission is enhanced by magnetic confinement of the
primary wind. We also detect Fe fluorescence indicative of the existence of
substantial amounts of neutral Fe in the vicinity of the X-ray emission.Comment: 11 pages, 8 figures, accepted for publication in The Astrophysical
Main Journa
Constraints on the mass and abundance of black holes in the Galactic halo: the high mass limit
We establish constraints on the mass and abundance of black holes in the
Galactic halo by determining their impact on globular clusters which are
conventionally considered to be little evolved. Using detailed Monte Carlo
simulations and simple analytic estimates, we conclude that, at Galactocentric
radius R~8 kpc, black holes with masses M_bh >~(1-3) x 10^6 M_sun can comprise
no more than a fraction f_bh ~ 0.025-0.05 of the total halo density. This
constraint significantly improves those based on disk heating and dynamical
friction arguments as well as current lensing results. At smaller radius, the
constraint on f_bh strengthens, while, at larger radius, an increased fraction
of black holes is allowed.Comment: 13 pages, 10 figures, revised version, in press, Monthly Notice
Probing Cosmology with the X-ray Forest
There is a growing consensus that in the present universe most baryons reside
in galaxy clusters and groups in the form of highly ionized gas at temperatures
of 10^6 ~ 10^8 K. The H-like and He-like ions of the heavy elements can produce
absorption features - the so-called ``X-ray Forest'' - in the X-ray spectrum of
a background quasar. We investigate the distribution of the X-ray absorption
lines produced by this gas under three different cosmological models: the
standard CDM with Omega_0=1, a flat model with Omega_0=0.3 and an open model
with with Omega_0=0.3. We give a semi- analytic calculation of the X-ray forest
distribution based on the Press- Schechter formalism, following Perna & Loeb
(1998). We choose three ions (O VIII, Si XIV and Fe XXV) and calculate the
distribution functions, the number of absorbers along the LOS to a distant
quasar vs. redshift and column density in a given ion. We find that significant
differences in the evolution of the distribution functions among the three
cosmological models. Using Monte Carlo simulations, we simulate the
distribution of X-ray absorption lines for 10,000 random LOS. We find there are
at least several O VIII lines with column density higher than 10^16 cm^-2.
Finally we explore the possibility of detecting the X-ray forest with current
and upcoming X-ray missions and we present an XMM RGS simulation of a
representative quasar X-ray spectrum.Comment: 25 pages, 11 figures, published in Ap
Static Pressure of Hot Gas: Its Effect on the Gas Disks of Galaxies
The static pressure of the hot gas that fills clusters and groups of galaxies
can affect significantly the volume density and thickness of the gas disks in
galaxies. In combination with the dynamic pressure, the static pressure allows
several observed peculiarities of spiral galaxies surrounded by a hot medium to
be explained.Comment: 9 pages, 2 figures. This is a slightly modified version of the paper
published in Astronomy Letters 2008, Vol. 34, No 11, p. 73
Chandra X-ray spectroscopy of the very early O supergiant HD 93129A: constraints on wind shocks and the mass-loss rate
We present analysis of both the resolved X-ray emission line profiles and the
broadband X-ray spectrum of the O2 If* star HD 93129A, measured with the
Chandra HETGS. This star is among the earliest and most massive stars in the
Galaxy, and provides a test of the embedded wind shock scenario in a very dense
and powerful wind. A major new result is that continuum absorption by the dense
wind is the primary cause of the hardness of the observed X-ray spectrum, while
intrinsically hard emission from colliding wind shocks contributes less than
10% of the X-ray flux. We find results consistent with the predictions of
numerical simulations of the line-driving instability, including line
broadening indicating an onset radius of X-ray emission of several tenths
Rstar. Helium-like forbidden-to-intercombination line ratios are consistent
with this onset radius, and inconsistent with being formed in a wind-collision
interface with the star's closest visual companion at a distance of ~100 AU.
The broadband X-ray spectrum is fit with a dominant emission temperature of
just kT = 0.6 keV along with significant wind absorption. The broadband wind
absorption and the line profiles provide two independent measurements of the
wind mass-loss rate: Mdot = 5.2_{-1.5}^{+1.8} \times 10^{-6} Msun/yr and Mdot =
6.8_{-2.2}^{+2.8} \times 10^{-6} Msun/yr, respectively. This is the first
consistent modeling of the X-ray line profile shapes and broadband X-ray
spectral energy distribution in a massive star, and represents a reduction of a
factor of 3 to 4 compared to the standard H-alpha mass-loss rate that assumes a
smooth wind.Comment: Accepted for publication in Monthly Notices of the Royal Astronomical
Society. 12 pages, 10 figures (incl. 5 color
Positive Quantum Brownian Evolution
Using the independent oscillator model with an arbitrary system potential, we
derive a quantum Brownian equation assuming a correlated total initial state.
Although not of Lindblad form, the equation preserves positivity of the density
operator on a restricted set of initial states
Chandra Observations of Variable Embedded X-ray sources in Orion. Paper I: Resolving Orion Trapezium
We used the High Energy Transmission Grating Spectrometer (HETGS) onboard the
Chandra X-ray Observatory to perform two observations, separated by three
weeks, of the Orion Trapezium region. The zeroth order images on the Advanced
CCD Imaging Spectrometer (ACIS) provide spatial resolution of 0.5" and moderate
energy resolution. Within a 160"x140" region around the Orion Trapezium we
resolve 111 X-ray sources with luminosities between 7x10^{28} ergs/s and
2x10^{32} ergs/s. We do not detect any diffuse emission. Many sources appear
much more heavily absorbed, with N_H in the range of 10^22 to 10^23 cm^-2. The
main objective of this paper is to study the Orion Trapezium and its close
vicinity. Most spectra of the very early type members can be fit with a
two-temperature thermal spectrum with a soft component of kT ~ 0.8 keV and a
hard component of kT ~ 2 to 3 keV. We discuss these results in the context of
stellar wind models. We detect eight additional, mostly variable X-ray sources
in the close vicinity of the Trapezium. Five of these X-rays sources are
identified with proplyds and we argue that the X-ray emission originates from
class I, II and III protostars at the cores of the proplyds.Comment: 12 pages, 3 figures, accepted for publication in The Astrophysical
Journa
AGILE detection of extreme gamma-ray activity from the blazar PKS 1510-089 during March 2009. Multifrequency analysis
We report on the extreme gamma-ray activity from the FSRQ PKS 1510-089
observed by AGILE in March 2009. In the same period a radio-to-optical
monitoring of the source was provided by the GASP-WEBT and REM. Moreover,
several Swift ToO observations were triggered, adding important information on
the source behaviour from optical/UV to hard X-rays. We paid particular
attention to the calibration of the Swift/UVOT data to make it suitable to the
blazars spectra. Simultaneous observations from radio to gamma rays allowed us
to study in detail the correlation among the emission variability at different
frequencies and to investigate the mechanisms at work. In the period 9-30 March
2009, AGILE detected an average gamma-ray flux of (311+/-21)x10^-8 ph cm^-2
s^-1 for E>100 MeV, and a peak level of (702+/-131)x10^-8 ph cm^-2 s^-1 on
daily integration. The gamma-ray activity occurred during a period of
increasing activity from near-IR to UV, with a flaring episode detected on
26-27 March 2009, suggesting that a single mechanism is responsible for the
flux enhancement observed from near-IR to UV. By contrast, Swift/XRT
observations seem to show no clear correlation of the X-ray fluxes with the
optical and gamma-ray ones. However, the X-ray observations show a harder
photon index (1.3-1.6) with respect to most FSRQs and a hint of
harder-when-brighter behaviour, indicating the possible presence of a second
emission component at soft X-ray energies. Moreover, the broad band spectrum
from radio-to-UV confirmed the evidence of thermal features in the optical/UV
spectrum of PKS 1510-089 also during high gamma-ray state. On the other hand,
during 25-26 March 2009 a flat spectrum in the optical/UV energy band was
observed, suggesting an important contribution of the synchrotron emission in
this part of the spectrum during the brightest gamma-ray flare, therefore a
significant shift of the synchrotron peak.Comment: 13 pages, 7 figures, 3 tables. Accepted for publication in Astronomy
and Astrophysic
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