7,532 research outputs found
The Volume Fraction of Ionized Intergalactic Gas at Redshift z=6.5
The observed number density of Lyman-alpha sources implies a minimum volume
of the inter-galactic medium that must be ionized, in order to allow the
Lyman-alpha photons to escape attenuation. We estimate this volume by assigning
to each Lyman-alpha emitter the minimum Stromgren sphere that would allow half
its Lyman-alpha photons to escape. This implies a lower limit to ionized gas
volume fraction of 20-50% at redshift z=6.5. This is a lower limit in two ways:
First, we conservatively assume that the Lyman-alpha sources seen (at a
relatively bright flux limit) are the only ones present; and second, we assume
the smallest Stromgren sphere volume that will allow the photons to escape.
This limit is completely independent of what ionizing photon sources produced
the bubbles. Deeper Lyman-alpha surveys are possible with present technology,
and can strengthen these limits by detecting a higher density of Lyman-alpha
galaxies.Comment: Submitted to ApJ Letter
Targeting colorectal cancer via its microenvironment by inhibiting IGF-1 receptor-insulin receptor substrate and STAT3 signaling.
The tumor microenvironment (TME) exerts critical pro-tumorigenic effects through cytokines and growth factors that support cancer cell proliferation, survival, motility and invasion. Insulin-like growth factor-1 (IGF-1) and signal transducer and activator of transcription 3 (STAT3) stimulate colorectal cancer development and progression via cell autonomous and microenvironmental effects. Using a unique inhibitor, NT157, which targets both IGF-1 receptor (IGF-1R) and STAT3, we show that these pathways regulate many TME functions associated with sporadic colonic tumorigenesis in CPC-APC mice, in which cancer development is driven by loss of the Apc tumor suppressor gene. NT157 causes a substantial reduction in tumor burden by affecting cancer cells, cancer-associated fibroblasts (CAF) and myeloid cells. Decreased cancer cell proliferation and increased apoptosis were accompanied by inhibition of CAF activation and decreased inflammation. Furthermore, NT157 inhibited expression of pro-tumorigenic cytokines, chemokines and growth factors, including IL-6, IL-11 and IL-23 as well as CCL2, CCL5, CXCL7, CXCL5, ICAM1 and TGFβ; decreased cancer cell migratory activity and reduced their proliferation in the liver. NT157 represents a new class of anti-cancer drugs that affect both the malignant cell and its supportive microenvironment
Grain Survival in Supernova Remnants and Herbig-Haro Objects
By using the flux ratio [FeII]8617/[OI]6300, we demonstrate that most of the
interstellar dust grains survive in shocks associated with supernova remnants
and Herbig-Haro objects. The [FeII]/[OI] flux ratio is sensitive to the
gas-phase Fe/O abundance ratio, but is insensitive to the ionization state,
temperature, and density of the gas. We calculate the [FeII]/[OI] flux ratio in
shocks, and compare the results with the observational data. When only 20% of
iron is in the gas phase, the models reproduce most successfully the
observations. This finding is in conflict with the current consensus that
shocks destroy almost all the grains and 100% of metals are in the gas phase.
We comment on previous works on grain destruction, and discuss why grains are
not destroyed in shocks.Comment: 8 pages (AASTex v5.0), 3 figures. To be published in ApJ Letters
(accepted 3/10/2000
Intermediate-mass-ratio-inspirals in the Einstein Telescope: I. Signal-to-noise ratio calculations
The Einstein Telescope (ET) is a proposed third generation ground-based
interferometer, for which the target is a sensitivity that is a factor of ten
better than Advanced LIGO and a frequency range that extends down to about 1Hz.
ET will provide opportunities to test Einstein's theory of relativity in the
strong field and will realize precision gravitational wave astronomy with a
thousandfold increase in the expected number of events over the advanced
ground-based detectors. A design study for ET is currently underway, so it is
timely to assess the science that could be done with such an instrument. This
paper is the first in a series that will carry out a detailed study of
intermediate-mass-ratio inspirals (IMRIs) for ET. In the context of ET, an IMRI
is the inspiral of a neutron star or stellar-mass black hole into an
intermediate mass black hole (IMBH). In this paper we focus on the development
of IMRI waveform models for circular and equatorial inspirals. We consider two
approximations for the waveforms, which both incorporate the inspiral, merger
and ringdown phases in a consistent way. One approximation, valid for IMBHs of
arbitrary spin, uses the transition model of Ori and Thorne [1] to describe the
merger, and this is then matched smoothly onto a ringdown waveform. The second
approximation uses the Effective One Body (EOB) approach to model the merger
phase of the waveform and is valid for non-spinning IMBHs. In this paper, we
use both waveform models to compute signal-to-noise ratios (SNRs) for IMRI
sources detectable by ET. At a redshift of z=1, we find typical SNRs for IMRI
systems with masses 1.4+100 solar masses, 10+100 solar masses, 1.4+500 solar
masses and 10+500 solar masses of about 10-25, 40-80, 3-15 and 10-60,
respectively. We also find that the two models make predictions for
non-spinning inspirals that are consistent to about ten percent.Comment: 27 pages, 9 figures, v3 has an updated reference for consistency with
accepted versio
Carbon nanotube quantum dots on hexagonal boron nitride
We report the fabrication details and low-temperature characteristics of the
first carbon nanotube (CNT) quantum dots on flakes of hexagonal boron nitride
(hBN) as substrate. We demonstrate that CNTs can be grown on hBN by standard
chemical vapor deposition and that standard scanning electron microscopy
imaging and lithography can be employed to fabricate nanoelectronic structures
when using optimized parameters. This proof of concept paves the way to more
complex devices on hBN, with more predictable and reproducible characteristics
and electronic stability.Comment: 4 pages, 4 figure
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