58 research outputs found
Phonological short-term memory contributions to vocabulary acquisition.
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN029879 / BLDSC - British Library Document Supply CentreGBUnited Kingdo
Estimating Photometric Redshifts for X-ray sources in the X-ATLAS field, using machine-learning techniques
We present photometric redshifts for 1,031 X-ray sources in the X-ATLAS
field, using the machine learning technique TPZ (Carrasco Kind & Brunner 2013).
X-ATLAS covers 7.1 deg2 observed with the XMM-Newton within the Science
Demonstration Phase (SDP) of the H-ATLAS field, making it one of the largest
contiguous areas of the sky with both XMMNewton and Herschel coverage. All of
the sources have available SDSS photometry while 810 have additionally mid-IR
and/or near-IR photometry. A spectroscopic sample of 5,157 sources primarily in
the XMM/XXL field, but also from several X-ray surveys and the SDSS DR13
redshift catalogue, is used for the training of the algorithm. Our analysis
reveals that the algorithm performs best when the sources are split, based on
their optical morphology, into point-like and extended sources. Optical
photometry alone is not enough for the estimation of accurate photometric
redshifts, but the results greatly improve when, at least, mid-IR photometry is
added in the training process. In particular, our measurements show that the
estimated photometric redshifts for the X-ray sources of the training sample,
have a normalized absolute median deviation, n_mad=0.06, and the percentage of
outliers, eta=10-14 percent, depending on whether the sources are extended or
point-like. Our final catalogue contains photometric redshifts for 933 out of
the 1,031 X-ray sources with a median redshift of 0.9.Comment: 10 pages, 13 figures, A&A accepte
Disentangling the AGN and Star-Formation connection using XMM-Newton
There is growing evidence supporting the coeval growth of galaxies and their
resident SMBH. Most studies also claim a correlation between the activity of
the SMBH and the star-formation of the host galaxy. It is unclear, though,
whether this correlation extends to all redz and LX. In this work, we use data
from the X-ATLAS and XMM-XXL North fields and compile the largest X-ray sample
up to date, to investigate how X-ray AGN affect the star-formation of their
host galaxies in a wide redz and luminosity baseline, i.e., 0.03<z<3 and log LX
(2-10 keV)= (41-45.5) ergs-1. Our sample consists of 3336 AGN. 1872 X-ray
objects have spectroscopic redz. For the remaining sources we calculate
photometric redz using TPZ, a machine-learning algorithm. We estimate stellar
masses (M*) and Star Formation Rates (SFRs) by applying SED fitting through the
CIGALE code, using optical, near-IR and mid-IR photometry. 608 of our sources
also have far-IR photometry (Herschel). We use these sources to calibrate the
SFR calculations of the rest of our X-ray sample. Our results show a
correlation between the LX and the SFR, at all redz and LX spanned by our
sample. We also find a dependence of the specific SFR (sSFR) on redz, while
there are indications that LX enhances the sSFR even at low redz. We then
disentangle the effects of M* and redz on the SFR and study again its
dependence on the LX. Towards this end, we use the Schreiber et al. formula to
estimate the SFR of main sequence galaxies that have the same stellar mass and
redshift as our X-ray AGN. Our analysis reveals that the AGN enhances the
star-formation of its host galaxy, when the galaxy lies below the main sequence
and quenches the star-formation of the galaxy it lives in, when the host lies
above the main sequence. Therefore, the effect of AGN on the SFR of the host
galaxy, depends on the location of the galaxy relative to the main sequence.Comment: A&A Accepted 10 pages, 8 figures, 2 table
Star-forming early-type galaxies and quiescent late-type galaxies in the local Universe
Aims: The general consensus is that late-type galaxies undergo intense star-formation, activity while early-type galaxies are mostly inactive. We question this general rule and investigate the existence of star-forming early-type and quiescent late-type galaxies in the local Universe. By computing the physical properties of these galaxies and by using information on their structural properties as well as the density of their local environment, we seek to understand the differences from their `typical' counterparts. Methods: We made use of the multi-wavelength photometric data (from the ultraviolet to the sub-millimetre), for 2209 morphologically classified galaxies in the Galaxy And Mass Assembly survey. Furthermore, we separated the galaxies into subsets of star-forming and quiescent based on their dominant ionising process, making use of established criteria based on the WHα width and the [NII/Hα] ratio. Taking advantage of the spectral energy distribution fitting code CIGALE, we derived galaxy properties, such as the stellar mass, dust mass, and star-formation rate, and we also estimated the unattenuated and the dust-absorbed stellar emission, for both the young (≤200 Myr) and old (> 200 Myr) stellar populations. Results: We find that about 47% of E/S0 galaxies in our sample show ongoing star-formation activity and 8% of late-type galaxies are quiescent. The star-forming elliptical galaxies, together with the little blue spheroids, constitute a population that follows the star-forming main sequence of spiral galaxies very well. The fraction of the luminosity originating from young stars in the star-forming early-type galaxies is quite substantial (∼25%) and similar to that of the star-forming late-type galaxies. The stellar luminosity absorbed by the dust (and used to heat the dust grains) is highest in star-forming E/S0 galaxies (an average of 35%) followed by star-forming Sa-Scd galaxies (27%) with this fraction becoming significantly smaller for their quiescent analogues (6% and 16%, for E/S0 and Sa-Scd, respectively). Star-forming and quiescent E/S0 galaxies donate quite different fractions of their young stellar luminosities to heat up the dust grains (74% and 36%, respectively), while these fractions are very similar for star-forming and quiescent Sa-Scd galaxies (59% and 60%, respectively). Investigating possible differences between star-forming and quiescent galaxies, we find that the intrinsic (unattenuated) shape of the SED of the star-forming galaxies is, on average, very similar for all morphological types. Concerning their structural parameters, quiescent galaxies tend to show larger values of the r-band Sérsic index and larger effective radii (compared to star-forming galaxies). Finally, we find that star-forming galaxies preferably reside in lower density environments compared to the quiescent ones, which exhibit a higher percentage of sources being members of groups
Comparative analysis of the SFR of AGN and non-AGN galaxies, as a function of stellar mass, AGN power, cosmic time, and obscuration
This study involves a comparative analysis of the star formation rates (SFRs) of active galactic nucleus (AGN) galaxies and non-AGN galaxies and of the SFRs of type 1 and 2 AGNs. To carry out this investigation, we assembled a dataset consisting of 2677 X-ray AGNs detected by the XMM-Newton observatory and a control sample of 64 556 galaxies devoid of AGNs. We generated spectral energy distributions (SEDs) for these objects using photometric data from the DES, VHS, and AllWISE surveys, and we harnessed the CIGALE code to extract measurements for the (host) galaxy properties. Our dataset encompasses a diverse parameter space, with objects spanning a range of stellar masses from 9.5 < log [M*(M⊙)] < 12.0, intrinsic X-ray luminosities within 42 < log[LX,2−10 keV(erg s−1)] < 45.5, and redshifts between 0.3 < z < 2.5. To compare SFRs, we calculated the SFRnorm parameter, which signifies the ratio of the SFR of an AGN galaxy to the SFR of non-AGN galaxies sharing similar M* and redshift. Our analysis reveals that systems hosting an AGN tend to exhibit elevated SFRs compared to non-AGN galaxies, particularly beyond a certain threshold in LX. Notably, this threshold increases as we move toward more massive galaxies. Additionally, for AGN systems with the same LX, the magnitude of the SFRnorm decreases as we consider more massive galaxies. This suggests that in galaxies with an AGN, the increase in SFR as a function of stellar mass is not as prominent as in galaxies without an AGN. This interpretation finds support in the shallower slope that we identify in the X-ray star-forming main sequence in contrast to the galaxy main sequence. Employing CIGALE’s measurements, we classified AGNs into type 1 and type 2. In our investigation, we focused on a subset of 652 type 1 AGNs and 293 type 2 AGNs within the stellar mass range of 10.5 < log[M (M⊙)] < 11.5. Based on our results, type 1 AGNs display higher SFRs than type 2 AGNs, at redshifts below z < 1. However, at higher redshifts, the SFRs of the two AGN populations tend to be similar. At redshifts z < 1, type 1 AGNs show augmented SFRs in comparison to non-AGN galaxies. In contrast, type 2 AGNs exhibit lower SFRs when compared to galaxies that do not host an AGN, at least up to log[LX,2−10 keV(erg s−1)] < 45.This project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement no. 101004168, the XMM2ATHENA project. VAM acknowledges support by the Grant RTI2018-096686-B-C21 funded by MCIN/AEI/10.13039/501100011033 and by ’ERDF A way of making Europe’. AC and FJC acknowledge support by the Grant PID2021-122955OB-C41 funded by MCIN/AEI/10.13039/501100011033 and by ERDF A way of making Europe. This research has made use of TOPCAT version 4.8 (Taylor 2005) and Astropy (Astropy Collaboration 2022).Peer reviewe
Relation between AGN type and host galaxy properties
We use 3213 active galactic nuclei (AGNs) from the XMM-XXL northern field to investigate the relation of AGN type with host galaxy properties. Applying a Bayesian method, we derive the hardness ratios, and through these the hydrogen column density (NH) for each source. We consider those with NH > 1021.5 cm−2 as absorbed sources (type 2). We examine the star formation rate (SFR) and the stellar mass (M*) distributions for both absorbed and unabsorbed sources. Our work indicates that there is no significant link between AGN type and these host galaxy properties. Next, we investigate whether the AGN power, as represented by its X-ray luminosity (LX) correlates with any deviation of the host galaxy’s place from the so-called main sequence of galaxies, and we examine this separately for the obscured and the unobscured AGN populations. To take into account the effect of M* and redshift on SFR, we use the normalised SFR (SFRnorm). We find that the correlation between LX and SFRnorm follows approximately the same trend for both absorbed and unabsorbed sources, a result that favours the standard AGN unification models. Finally, we explore the connection between the obscuration (NH) and the SFR. We find that there is no relation between them, suggesting that obscuration is not related to the large-scale SFR in the galaxy
Verbal working memory and reading abilities among students with visual impairment
Aim This study investigated the relationship between working memory (WM) and reading abilities among students with visual impairment (VI). Seventy-five students with VI (visually impairment and blindness), aged 10–15 years old participated in the study, of whom 44 were visually impaired and 31 were blind. Methods The participants’ reading ability was assessed with the standardized reading ability battery Test-A (Padeliadu & Antoniou, 2008) and their verbal working memory ability was assessed with the listening recall task from the Working Memory Test Battery for Children (Pickering et al., 2001). Results-Implications: Data analysis indicated a strong correlation between verbal WM and decoding, reading comprehension and overall reading ability among the participants with VI, while no correlation was found between reading fluency and verbal WM. The present study points out the important role of verbal WM in reading among students who are VI and carries implications for the education of those individuals. © 2017 Elsevier Lt
Galaxy properties of type 1 and 2 X-ray selected AGN and a comparison among different classification criteria
We present analyses of host galaxy properties of type 1 and type 2 X-ray selected Active galactic nuclei (AGNs) in the XMM-XXL field, which have an available optical spectroscopic classification. We modelled their optical to far-infrared spectral energy distributions (SEDs) using the X-CIGALE code. X-CIGALE allows for the fitting of X-ray flux and accounts for the viewing angle of dusty torus and the attenuation from polar dust. By selecting matched type 1 and 2 sub-samples in the X-ray luminosity and redshift parameter space, we find that both types live in galaxies with similar star formation. However, type 2 AGN tend to reside in more massive systems () compared to their type 1 counterparts (). In the second part of our analysis, we compare the spectroscopic classification with that from the SED fitting. X-CIGALE successfully identifies all spectroscopic type 2 sources either by estimating an inclination angle that corresponds to edge on viewing of the source or by measuring increased polar dust in these systems. Approximately 85% of spectroscopic type 1 AGN are also identified as such, based on the SED fitting analysis. There is a small number of sources (∼15% of the sample) that present broad lines in their spectra, but they show strong indications of obscuration, based on SED analysis. These could be systems that are viewed face on and have an extended dust component along the polar direction. The performance of X-CIGALE in classifying AGN is similar at low and high redshifts, under the condition that there is sufficient photometric coverage. Finally, the usage of optical/mid-IR colour criteria to identify optical red AGN (u − W3) suggests that these criteria are better suited for IR selected AGN and their efficiency drops for the low to moderate luminosity sources included in X-ray samples
Inefficient understanding of non-factive mental verbs with social aspect in adults: comparison to cognitive factive verb processing
Elena-Ioanna Nazlidou,1 Despina Moraitou,1 Demetrios Natsopoulos,2 Vasileios Papaliagkas,1 Elvira Masoura,1 Georgia Papantoniou3 1Lab of Psychology, Department of Cognitive and Experimental Psychology, School of Psychology, Aristotle University of Thessaloniki, Hellas, Greece; 2School of Psychology, University of Cyprus, Nicosia, Cyprus; 3Department of Early Childhood Education, University of Ioannina, Hellas, Greece Introduction: Mental verbs denote inner mental states and are an important link between language and Theory of Mind ability conceptualized as mental state understanding. Non-factive mental verbs denote an obligation or intention and constitute a discrete class of mental verbs which are characterized by their social aspect. This study aimed to examine adults’ ability to understand non-factive mental verbs with the social aspect as compared to cognitive factive mental verbs which denote a true event. Methods: A total of 94 participants, aged 18–95 years, were examined using two tasks measuring non-factive and factive verb processing, respectively, and a working memory test. Results: The results indicated that non-factive verbs process is at a significantly lower level than those of cognitive factives. Conclusion: The inspection of the way adapted to process the non-factive verbs denoting obligation or intention, as well as the confirmation of a unifactorial structure of the task developed to measure non-factives’ processing, showed that adults have a common pattern of non-factive mental verb understanding, which is based on heuristic ways of thinking and is not affected by working memory capacity and age. Keywords: affirmation/negation, cognitive factive mental verbs, heuristic ways of thinking, non-factive mental verbs, verbs denoting obligation or intentio
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