203 research outputs found
Simulations on a potential hybrid and compact attosecond X-ray source based on RF and THz technologies
We investigate through beam dynamics simulations the potential of a hybrid
layout mixing RF and THz technologies to be a compact X-ray source based on
Inverse Compton Scattering (ICS), delivering few femtoseconds to
sub-femtosecond pulses. The layout consists of an S-band gun as electron source
and a dielectric-loaded circular waveguide driven by a multicycle THz pulse to
accelerate and longitudinally compress the bunch, which will then be used to
produce X-ray pulses via ICS with an infrared laser pulse. The beam dynamics
simulations we performed, from the photocathode up to the ICS point, allows to
have an insight in several important physical effects for the proposed scheme
and also in the influence on the achievable bunch properties of various
parameters of the accelerating and transverse focusing devices. The study
presented in this paper leads to a preliminary layout and set of parameters
able to deliver at the ICS point, according to our simulations, ultrashort
bunches (around 1 fs rms), at 15 MeV, with at least 1 pC charge and
transversely focused down to around 10 um rms or below while keeping a compact
beamline (less than 1.5 m), which has not yet been achieved using only
conventional RF technologies. Future studies will be devoted to the
investigation of several potential ways to improve the achieved bunch
properties, to overcome the limitations identified in the current study and to
the definition of the technical requirements. This will lead to an updated
layout and set of parameters.Comment: To be published in Nucl. Inst. Meth. A as proceedings of the EAAC17
conference 9 pages, 11 figure
Small Angle Crab Crossing for the LHC4
A small angle crab compensation ( 0.5 mrad) is foreseen to improve the LHC luminosity independently of the IR upgrade paths to enhance the luminosity of the LHC by 15% for the nominal and factor of 2-3 for various upgrade scenarios. Crab cavities ensure head-on collisions and recover the geometric luminosity loss from the presence of a finite crossing angle at the interaction point (IP). An R&D program is underway to design and fabricate superconducting RF (SRF) prototype cavity at 800 MHz to test several SRF limits in the deflecting mode. If the prototype is installed in the LHC, it can be used for a first demonstration of crab crossing in hadron beams to understand potential emittance growth mechanisms due to crab cavities
Multiplicity among the cool supergiants in the Magellanic Clouds
The characterization of multiplicity of high-mass stars is of fundamental importance to understand their evolution, the diversity of observed core-collapse supernovae and the formation of gravitational wave progenitor systems. Despite that, until recently, one of the final phases of massive star evolution – the cool supergiant phase – has received comparatively little attention. In this study, we aim to explore the multiplicity among the cool supergiant (CSG) population in the Large and Small Magellanic Clouds (LMC and SMC, respectively). To do this we compile extensive archival radial velocity (RV) measurements for over 1000 CSGs from the LMC and SMC, spanning a baseline of over 40 yr. By statistically correcting the RV measurements of each stellar catalogue to the Gaia DR2 reference frame we are able to effectively compare these diverse observations. We identify 45 CSGs where RV variations cannot be explained through intrinsic variability, and are hence considered binary systems. We obtain a minimum binary fraction of 15±4 per cent for the SMC and of 14±5 per cent for the LMC, restricting our sample to objects with at least 6 and 5 observational epochs, respectively. Combining these results, we determine a minimum binary fraction of 15±3 per cent for CSGs. These results are in good agreement with previous results which apply a correction to account for observational biases. These results add strength to the hypothesis that the binary fraction of CSGs is significantly lower than their main-sequence counterparts. Going forward, we stress the need for long-baseline multi-epoch spectroscopic surveys to cover the full parameter space of CSG binary systems.The authors acknowledge support from the Spanish Government Ministerio de Ciencia e Innovación through grants PGC-2018-091 3741-B-C22 and SEV 2015-0548, and from the Canarian Agency for Research, Innovation and Information Society (ACIISI), of the Canary Islands Government, and the European Regional Development Fund (ERDF), under grant with reference ProID2017010115, and the support from the Generalitat Valenciana through the grant PROMETEO/2019/041. This work has made use of data from the European Space Agency (ESA) mission Gaia (https://www.cosmos.esa.int/gaia), processed by the Gaia Data Processing and Analysis Consortium (DPAC, https://www.cosmos.esa.int/web/gaia/dpac/consortium). Funding for the DPAC has been provided by national institutions, in particular the institutions participating in the Gaia Multilateral Agreement
The red supergiant population in the Perseus arm
We present a new catalogue of cool supergiants in a section of the Perseus
arm, most of which had not been previously identified. To generate it, we have
used a set of well-defined photometric criteria to select a large number of
candidates (637) that were later observed at intermediate resolution in the the
Infrared Calcium Triplet spectral range, using a long-slit spectrograph. To
separate red supergiants from luminous red giants, we used a statistical
method, developed in previous works and improved in the present paper. We
present a method to assign probabilities of being a red supergiant to a given
spectrum and use the properties of a population to generate clean samples,
without contamination from lower-luminosity stars. We compare our
identification with a classification done using classical criteria and discuss
their respective efficiencies and contaminations as identification methods. We
confirm that our method is as efficient at finding supergiants as the best
classical methods, but with a far lower contamination by red giants than any
other method. The result is a catalogue with 197 cool supergiants, 191 of which
did not appear in previous lists of red supergiants. This is the largest
coherent catalogue of cool supergiants in the Galaxy
Characterisation of red supergiants in the Gaia spectral range
The infrared Calcium Triplet and its nearby spectral region have been used
for spectral and luminosity classification of late-type stars, but the samples
of cool supergiants (CSGs) used have been very limited (in size, metallicity
range, and spectral types covered). The spectral range of the Gaia Radial
Velocity Spectrograph (RVS) covers most of this region but does not reach the
main TiO bands in this region, whose depths define the M sequence. We study the
behaviour of spectral features around the Calcium Triplet and develop effective
criteria to identify and classify CSGs, comparing their efficiency with other
methods previously proposed. We measure the main spectral features in a large
sample (almost 600) of CSGs from three different galaxies, and we analyse their
behaviour through a principal component analysis. Using the principal
components, we develop an automatised method to differentiate CSGs from other
bright late-type stars, and to classify them. The proposed method identifies a
high fraction of the supergiants (SGs) in our test sample, which cover a wide
metallicity range (SGs from the SMC, the LMC, and the Milky Way) and with
spectral types from G0 up to late-M. In addition, it is capable to separate
most of the non-SGs in the sample, identifying as SGs only a very small
fraction of them. A comparison of this method with other previously proposed
shows that it is more efficient and selects less interlopers. A way to
automatically assign a spectral type to the SGs is also developed. We apply
this study to spectra at the resolution and spectral range of the Gaia RVS,
with a similar success rate. The method developed identifies and classifies
CSGs in large samples, with high efficiency and low contamination, even in
conditions of wide metallicity and spectral-type ranges
An atlas of cool supergiants from the Magellanic Clouds and typical interlopers: A guide for the classification of luminous red stars
We present an atlas composed of more than 1500 spectra of late-type stars
(spectral types from G to M) observed simultaneously in the optical and calcium
triplet spectral ranges. These spectra were obtained as part of a survey to
search for cool supergiants in the Magellanic Clouds and were taken over four
epochs. We provide the spectral and luminosity classification for each spectrum
(71% are supergiants, 13% are giants or luminous giants, 4% are carbon or S
stars, and the remaining 12% are foreground stars of lesser luminosities). We
also provide a detailed guide for the spectral classification of luminous
late-type stars, the result of the extensive classification work done for the
atlas. Although this guide is based on classical criteria, we have put them
together and re-elaborated them for modern CCD-spectra as these criteria were
scattered among many different works and mainly conceived for use with
photographic plate spectra. The result is a systematic, well-tested process for
identifying and classifying luminous late-type stars, illustrated with CCD
spectra of standard stars and the classifications of our own catalogue
Strong lithium lines in red supergiants at different metallicities
Current models of stellar evolution predict that stars more massive than
M should have completely depleted all lithium (Li) in their
atmospheres by the time when they reach the He core burning phase. Against
this, a non-negligible number of red giants with masses M
presenting strong Li lines have recently been reported. Motivated by this
finding, we have carried out a spectroscopic survey of red supergiants (RSGs)
in the Perseus Arm and a selection of young open clusters in the Magellanic
Clouds to assess the presence of the Li I 6708 doublet line. Based on
a sample of >70 objects, close to one third of RSGs in the Perseus Arm display
noticeable Li lines, with perhaps a trend towards a lower fraction among more
luminous stars. The samples in the Magellanic Clouds are not as large, but hint
at a metallicity dependence. Twenty one RSGs in 5 LMC clusters show a very high
fraction of Li detection, around 40%. Conversely, 17 RSGs in 5 SMC clusters
give only one secure detection. The interpretation of these observational
results is not straightforward, but a mechanism for Li production seems most
likely. Further characterisation work is ongoing, while theoretical studies
into this matter are urgently needed.Comment: Accepted in proceedings for IAU Symposium 361: Massive Stars Near and
Far, held in Ballyconnell, Ireland, 9-13 May 2022. N. St-Louis, J. S. Vink &
J. Mackey, ed
Gaia-ESO Survey: Gas dynamics in the Carina nebula through optical emission lines
Aims. We present observations from the Gaia-ESO Survey in the lines of Hα, [N II], [S II], and He I of nebular emission in the central part of the Carina nebula. Methods. We investigate the properties of the two already known kinematic components (approaching and receding), which account for the bulk of emission. Moreover, we investigate the features of the much less known low-intensity high-velocity (absolute RV >50 km s) gas emission. Results. We show that gas giving rise to Hα and He I emission is dynamically well correlated with but not identical to gas seen through forbidden-line emission. Gas temperatures are derived from line-width ratios, and densities from [S II] doublet ratios. The spatial variation of N ionization is also studied, and found to differ between the approaching and receding components. The main result is that the bulk of the emission lines in the central part of Carina arise from several distinct shell-like expanding regions, the most evident found around η Car, the Trumpler 14 core, and the star WR25. These >shells> are non-spherical and show distortions probably caused by collisions with other shells or colder, higher-density gas. Some of them are also partially obscured by foreground dust lanes, while very little dust is found in their interior. Preferential directions, parallel to the dark dust lanes, are found in the shell geometries and physical properties, probably related to strong density gradients in the studied region. We also find evidence that the ionizing flux emerging from η Car and the surrounding Homunculus nebula varies with polar angle. The high-velocity components in the wings of Hα are found to arise from expanding dust reflecting the η Car spectrum. © ESO, 2016.This work was partly supported by the European Union FP7 programme through ERC grant number 320360 and by the Leverhulme Trust through grant RPG-2012-541Peer Reviewe
Small Angle Crab Compensation for LHC IR Upgrade
A small angle crab scheme is being considered for the LHC luminosity upgrade. In this paper we present a 400MHz superconducting cavity design and discuss the pertinent RF challenges. We also present a study on the beam-beam performance and proton-beam emittance growth in the presence of crab compensation, with RF noise sources
Beam Dynamics and Tolerance Studies of the THz-driven Electron Linac for the AXSIS Experiment
A dielectric-loaded linac powered by THz-pulses is one of the key parts of
the "Attosecond X-ray Science: Imaging and Spectroscopy" (AXSIS) project at
DESY, Hamburg. As in conventional accelerators, the AXSIS linac is designed to
have phase velocity equal to the speed of light which, in this case, is
realized by tuning the thickness of the dielectric layer and the radius of the
vacuum channel. Therefore, structure fabrication errors will lead to a change
in the beam dynamics and beam quality. Additionally, errors in the bunch
injection will also affect the acceleration process and can cause beam loss on
the linac wall. This paper numerically investigates the process of electron
beam acceleration in the AXSIS linac, taking into account the aforementioned
errors. Particle tracking simulations were done using the code ECHO, which uses
a low-dispersive algorithm for the field calculation and was specially adapted
for the dielectric-loaded accelerating structures.Comment: EAAC'17 conference proceeding
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