63,356 research outputs found
Comforting sentences from the warming room at Inchcolm abbey
A fragmentary inscription from the fifteenth century is reconstructed and its source identified, offering an insight into the use of one proverbial source of morally and spiritually encouraging sentences, and opening another little window on to the books available to the canons of Inchcolm
Band-Pass and OH-Suppression Filters for the E-ELT - Design and Prototyping
Optical filters are used for a variety of purposes at astronomical
telescopes. In the near infrared region, from 0.8 to 2.5 um, bandpass and edge
filters are used to separate the different astronomical channels, such as the
J, H, and K bands. However, in the same wavelength range light emission
generated in the earth's atmosphere is superimposed on the stellar radiation.
Therefore, ground based astronomical instruments measure, in addition to the
stellar light, also unwanted contributions from the earth's atmosphere. The
characteristic lines of this OH emission are extremely narrow and distributed
over the complete NIR spectral range. The sensitivity of future telescopes,
like the European Extreme Large Telescope (E-ELT) which is currently being
designed by ESO, can be dramatically improved if the atmospheric emission lines
are effectively suppressed while the stellar radiation is efficiently
transferred to the detector systems. For this task, new types of optical
filters have to be developed. In this framework new design concepts and
algorithms must be used, combining the measurement needs with practical
restrictions. Certainly, the selected deposition process plays the key role in
the manufacturing process. Precise and highly stable deposition systems are
necessary to realise such filter systems with an appropriate homogeneity.
Moreover, the production control techniques must be adapted to match the high
level of precision required in the NIR range. Finally, the characterisation
set-ups for such filters systems have to be provided. The manufacturing of such
a filter system for a feasibility study of an E-ELT instrument is presented.
The design development, the deposition with adapted Ion Beam Sputtering
deposition plants, and the characterisation of such filters in the J-Band is
described.Comment: contribution to SPIE 8168 on 'Advances in Optical Thin Films IV',
Marseille 201
Skyrme-force time-dependent Hartree-Fock calculations with axial symmetry
We discuss axially symmetric time-dependent Hartree-Fock calculations using a finite-range modification of the Skyrme energy functional. The finite-difference forms of the coordinate-space time-dependent Hartree-Fock equations, the method of time evolution, and other numerical aspects are presented. Detailed results for (^84)Kr-induced deep-inelastic collisions with (^208)Pb at E_(lab) = 494 MeV and with (^209)Bi at E_(lab) = 600 MeV and 714 MeV are compared with experiment.
[NUCLEAR REACTIONS (^84)Kr + (^208)Pb at E_lab = 494 MeV and (^84)Kr + (^209)Bi at E_1ab=600 and 714 MeV, in the time-dependent Hartree-Fock approximation. Strongy
damped collisions. Details of Skyrme force calculations with axial symmetry.
New Cosmological Structures on Medium Angular Scales Detected with the Tenerife Experiments
We present observations at 10 and 15 GHz taken with the Tenerife experiments
in a band of the sky at Dec.=+35 degrees. These experiments are sensitive to
multipoles in the range l=10-30. The sensitivity per beam is 56 and 20 microK
for the 10 and the 15 GHz data, respectively. After subtraction of the
prediction of known radio-sources, the analysis of the data at 15 GHz at high
Galactic latitude shows the presence of a signal with amplitude Delta Trms ~ 32
microK. In the case of a Harrison-Zeldovich spectrum for the primordial
fluctuations, a likelihood analysis shows that this signal corresponds to a
quadrupole amplitude Q_rms-ps=20.1+7.1-5.4 microK, in agreement with our
previous results at Dec.+=40 degrees and with the results of the COBE DMR.
There is clear evidence for the presence of individual features in the RA range
190 degrees to 250 degrees with a peak to peak amplitude of ~110 microK. A
preliminary comparison between our results and COBE DMR predictions for the
Tenerife experiments clearly indicates the presence of individual features
common to both. The constancy in amplitude over such a large range in frequency
(10-90 GHz) is strongly indicative of an intrinsic cosmological origin for
these structures.Comment: ApJ Letters accepted, 13 pages Latex (uses AASTEX) and 4 encapsulated
postscript figures
Resolved stellar population of distant galaxies in the ELT era
The expected imaging capabilities of future Extremely Large Telescopes (ELTs)
will offer the unique possibility to investigate the stellar population of
distant galaxies from the photometry of the stars in very crowded fields. Using
simulated images and photometric analysis we explore here two representative
science cases aimed at recovering the characteristics of the stellar
populations in the inner regions of distant galaxies. Specifically: case A) at
the center of the disk of a giant spiral in the Centaurus Group, (mu B~21,
distance of 4.6 Mpc); and, case B) at half of the effective radius of a giant
elliptical in the Virgo Cluster (mu~19.5, distance of 18 Mpc). We generate
synthetic frames by distributing model stellar populations and adopting a
representative instrumental set up, i.e. a 42 m Telescope operating close to
the diffraction limit. The effect of crowding is discussed in detail showing
how stars are measured preferentially brighter than they are as the confusion
limit is approached. We find that (i) accurate photometry (sigma~0.1,
completeness >90%) can be obtained for case B) down to I~28.5, J~27.5 allowing
us to recover the stellar metallicity distribution in the inner regions of
ellipticals in Virgo to within ~0.1 dex; (ii) the same photometric accuracy
holds for the science case A) down to J~28.0, K~27.0, enabling to reconstruct
of the star formation history up to the Hubble time via simple star counts in
diagnostic boxes. For this latter case we discuss the possibility of deriving
more detailed information on the star formation history from the analysis of
their Horizontal Branch stars. We show that the combined features of high
sensitivity and angular resolution of ELTs may open a new era for our knowledge
of the stellar content of galaxies of different morphological type up to the
distance of the Virgo cluster.Comment: 21 pages, 17 figures, PASP accepted in pubblicatio
How typical is the Coma cluster?
Coma is frequently used as the archetype z~0 galaxy cluster to compare higher
redshift work against. It is not clear, however, how representative the Coma
cluster is for galaxy clusters of its mass or X-ray luminosity, and
significantly: recent works have suggested that the galaxy population of Coma
may be in some ways anomolous. In this work, we present a comparison of Coma to
an X-ray selected control sample of clusters. We show that although Coma is
typical against the control sample in terms of its internal kinematics
(substructure and velocity dispersion profile), it has a significantly high
(~3sigma) X-ray temperature set against clusters of comparable mass. By
de-redshifting our control sample cluster galaxies star-formation rates using a
fit to the galaxy main sequence evolution at z < 0.1, we determine that the
typical star-formation rate of Coma galaxies as a function of mass is higher
than for galaxies in our control sample at a confidence level of > 99 per cent.
One way to alleviate this discrepency and bring Coma in-line with the control
sample would be to have the distance to Coma to be slightly lower, perhaps
through a non-negligible peculiar velocity with respect to the Hubble
expansion, but we do not regard this as likely given precision measurements
using a variety of approaches. Therefore in summary, we urge caution in using
Coma as a z~0 baseline cluster in galaxy evolution studies.Comment: accepted for publication in MNRA
Asteroseismic modeling of 16 Cyg A & B using the complete Kepler data set
Asteroseismology of bright stars with well-determined properties from
parallax measurements and interferometry can yield precise stellar ages and
meaningful constraints on the composition. We substantiate this claim with an
updated asteroseismic analysis of the solar-analog binary system 16 Cyg A & B
using the complete 30-month data sets from the Kepler space telescope. An
analysis with the Asteroseismic Modeling Portal (AMP), using all of the
available constraints to model each star independently, yields the same age
( Gyr) and composition (, ) for both stars, as expected for a binary system. We quantify the
accuracy of the derived stellar properties by conducting a similar analysis of
a Kepler-like data set for the Sun, and we investigate how the reliability of
asteroseismic inference changes when fewer observational constraints are
available or when different fitting methods are employed. We find that our
estimates of the initial helium mass fraction are probably biased low by
0.02-0.03 from neglecting diffusion and settling of heavy elements, and we
identify changes to our fitting method as the likely source of small shifts
from our initial results in 2012. We conclude that in the best cases reliable
stellar properties can be determined from asteroseismic analysis even without
independent constraints on the radius and luminosity.Comment: 5 emulateapj pages, 1 table, 1 figure. ApJ Letters, accepte
FliPer: Checking the reliability of global seismic parameters from automatic pipelines
Our understanding of stars through asteroseismic data analysis is limited by
our ability to take advantage of the huge amount of observed stars provided by
space missions such as CoRoT, Kepler, K2, and soon TESS and PLATO. Global
seismic pipelines provide global stellar parameters such as mass and radius
using the mean seismic parameters, as well as the effective temperature. These
pipelines are commonly used automatically on thousands of stars observed by K2
for 3 months (and soon TESS for at least around 1 month). However, pipelines
are not immune from misidentifying noise peaks and stellar oscillations.
Therefore, new validation techniques are required to assess the quality of
these results. We present a new metric called FliPer (Flicker in Power), which
takes into account the average variability at all measured time scales. The
proper calibration of FliPer enables us to obtain good estimations of global
stellar parameters such as surface gravity that are robust against the
influence of noise peaks and hence are an excellent way to find faults in
asteroseismic pipelines.Comment: 4 pages, 3 figures, Proceedings for SF2A 2017 (Paris
Random telegraph signal amplitudes in sub 100 nm (decanano) MOSFETs: a 3D `Atomistic' simulation study
In this paper we use 3D simulations to study the amplitudes of random telegraph signals (RTS) associated with the trapping of a single carrier in interface states in the channel of sub 100 nm (decanano) MOSFETs. Both simulations using continuous doping charge and random discrete dopants in the active region of the MOSFETs are presented. We have studied the dependence of the RTS amplitudes on the position of the trapped charge in the channel and on the device design parameters. We have observed a significant increase in the maximum RTS amplitude when discrete random dopants are employed in the simulations
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