31 research outputs found
How dark the sky: the JWST backgrounds
We describe the sources of stray light and thermal background that affect
JWST observations; report actual backgrounds as measured from commissioning and
early science observations; compare those background levels to pre-launch
predictions; estimate the impact of the backgrounds on science performance; and
explore how the backgrounds probe the achieved configuration of the deployed
observatory. We find the observatory is limited by the irreducible
astrophysical backgrounds, rather than scattered stray light and thermal
self-emission, for all wavelengths micron, thus meeting the
level 1 requirement. This result was not assured given the open architecture
and thermal challenges of JWST, and is the result of meticulous attention to
stray light and thermal issues in the design, construction, integration, and
test phases. From background considerations alone, JWST will require less
integration time in the near-infrared compared to a system that just met the
stray light requirements; as such, JWST will be even more powerful than
expected for deep imaging at 1--5 micron. In the mid-infrared, the measured
thermal backgrounds closely match pre-launch predictions. The background near
10 micron is slightly higher than predicted before launch, but the impact on
observations is mitigated by the excellent throughput of MIRI, such that
instrument sensitivity will be as good as expected pre-launch. These measured
background levels are fully compatible with JWST's science goals and the Cycle
1 science program currently underway.Comment: Submitted to the "JWST Overview" special issue of PAS
Detection of a supernova signature associated with GRB 011121
Using observations from an extensive monitoring campaign with the Hubble Space Telescope, we present the detection of an intermediate-time flux excess that is redder in color relative to the afterglow of GRB 011121, currently distinguished as the gamma-ray burst with the lowest known redshift. The red "bump," which exhibits a spectral rollover at ∼7200 A, is well described by a redshifted Type le supernova that occurred approximately at the same time as the gamma-ray burst event. The inferred luminosity is about half that of the bright supernova SN 1998bw. These results serve as compelling evidence for a massive star origin of long-duration gamma-ray bursts. Models that posit a supernova explosion weeks to months preceding the gamma-ray burst event are excluded by these observations. Finally, we discuss the relationship between spherical core-collapse supernovae and gamma-ray bursts
GRB 010921: Strong limits on an underlying supernova from the Hubble Space Telescope
GRB 010921 was the first HETE-2 gamma-ray burst (GRB) to be localized via its afterglow emission. The low redshift of the host galaxy, z = 0.451, prompted us to undertake intensive multicolor observations with the Hubble Space Telescope with the goal of searching for an underlying supernova (SN) component. We do not detect any coincident SN to a limit 1.33 mag fainter than SN 1998bw at 99.7% confidence, making this one of the most sensitive searches for an underlying SN. Analysis of the afterglow data allows us to infer that the GRB was situated behind a net extinction (Milky Way and the host galaxy) of Av ∼ 1.8 mag in the observer frame. Thus, had it not been for such heavy extinction, our data would have allowed us to probe for an underlying SN with brightness approaching those of more typical Type Ib/c SNe
FUV and X-ray absorption in the Warm-Hot Intergalactic Medium
The Warm-Hot Intergalactic Medium (WHIM) arises from shock-heated gas
collapsing in large-scale filaments and probably harbours a substantial
fraction of the baryons in the local Universe. Absorption-line measurements in
the ultraviolet (UV) and in the X-ray band currently represent the best method
to study the WHIM at low redshifts. We here describe the physical properties of
the WHIM and the concepts behind WHIM absorption line measurements of H I and
high ions such as O VI, O VII, and O VIII in the far-ultraviolet and X-ray
band. We review results of recent WHIM absorption line studies carried out with
UV and X-ray satellites such as FUSE, HST, Chandra, and XMM-Newton and discuss
their implications for our knowledge of the WHIM.Comment: 26 pages, 9 figures, accepted for publication in Space Science
Reviews, special issue "Clusters of galaxies: beyond the thermal view",
Editor J.S. Kaastra, Chapter 3; work done by an international team at the
International Space Science Institute (ISSI), Bern, organised by J.S.
Kaastra, A.M. Bykov, S. Schindler & J.A.M. Bleeke
Analysis of an outbreak of Candida albicans in the Newborn Unit of Civil Hospital Fray Antonio Alcalde in Guadalajara, Mexico [Análisis de un brote de Candida albicans en la Unidad del ReciZapotitlánn Nacido del Hospital Civil Fray Antonio Alcalde de Guadalajara, México]
The genus Candida is involved in different pathological processes in intrahospitalary infections. Development of diagnostic methods has made possible isolation, identification and monitoring of genus Candida. The purpose of this study was to describe a Candida albicans outbreak at the Newborn Unit. METHODS. Three clinical cases were described by a mycological and molecular study in order to identify the microorganism and obtain a correct diagnosis of the yeast isolated from blood culture. RESULTS. The Candida albicans were phenotypically and genotypically identified. We evaluated the clinical cases and identified the risk factors associated to the outbreak. CONCLUSION. The risk factors of transmission were use of broad spectrum antibacterial agents and use of intravenous catheters