R. A. Windhorst’s research while affiliated with Arizona State University and other places

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Publications (272)


Fig. 1. Schematic view of the NIRSpec IFU pointings targeting lensed dwarfs and proto-globulars at z = 6.14 (transparent green boxes) and a candidate population III star complex at z = 6.63, dubbed LAP1 (Vanzella et al. 2023b) (transparent cyan box). Each square represents the IFU field of view of 3 × 3 , with the white contours outlining the VLT/MUSE Lyα emission at z = 6.14 at 2, 4, 6, and 8σ (Vanzella et al. 2021). The darker green box marks the NIRSpec pointing on source T2 discussed in this work. The background color image is the release 2023-146, which combines Hubble and JWST imaging (from the PEARLS team). The dotted ellipses (Image1 and Image3) mark the two multiple images of the most magnified region, which is marked with the solid ellipse (Image2).
Fig. 2. Overview of the JWST/NIRSpec IFU pointing on T2. Left panel: Stacked JWST/NIRCam F115W + F150W + F200W image overlaid with the NIRSpec IFU footprint, the location of T2 and the nearby JWST-UV-dark T2c emitter, and the VLT/MUSE Lyα contours at 2, 4, and 6 sigma as part of the giant Lyα arc (red lines). Middle and rightmost panels: Color composite image highlights the boost produced by Hβ + [Oiii]λλ4959, 5007 in the green channel (middle) and the presence of Hα in the red channel (right). The thin white contours in the middle and rightmost panels outline the same black contours shown in the leftmost panel: the T2c source with its tails.
Observed and derived properties of the T2 family.
Extreme ionizing properties of a metal-poor, M_UV ~ -12 star complex in the first gigayear
  • Article
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October 2024

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6 Reads

Astronomy and Astrophysics

E. Vanzella

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F. Loiacono

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[...]

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R. Windhorst

We report the serendipitous discovery of a faint (MUV>12.2_ UV > -12.2), low-metallicity (Z odot ) ionizing source, dubbed T2c, with a spectroscopic redshift of z=6.146. T2c is part of a larger structure amplified by the Hubble Frontier Field galaxy cluster MACSJ0416 and was observed with the James Webb Space Telescope ( NIRSpec integral field unit. Stacking the short-wavelength NIRCam data reveals no stellar continuum detection down to a magnitude limit of UV However, prominent and emissions are detected, with equivalent widths exceeding 200 and 1300 respectively. The corresponding intrinsic (magnification-corrected 3) ultraviolet and optical rest-frame magnitudes exceed 34.4 and 33.9 (corresponding to UV andM and M_ opt fainterthan12.2and12.8at fainter than -12.2 and -12.8 at rest and respectively),suggestingastellarmasslowerthanafew respectively), suggesting a stellar mass lower than a few 10^4underaninstantaneousburstscenario.Theinferredionizingphotonproductionefficiency( under an instantaneous burst scenario. The inferred ionizing photon production efficiency ( ion )ishigh:) is high: ion assuming no dust attenuation and no Lyman continuum leakage. This indicates the presence of massive stars despite the low mass of the object. The very poor sampling of the initial mass function in such a low-mass star-forming complex suggests that the formation of very massive stars might be favored in very low-metallicity environments. T2c is surrounded by Balmer and weak oxygen emission on a spatial scale of a few hundred parsecs, after correcting for lensing effects. This system resembles a region potentially powered by currently undetected, extremely efficient, low-metallicity star complexes or clusters. We propose that massive O-type stars populate these low-mass, low-metallicity, high-redshift satellites, likely observed in an early and short formation phase, and contribute to the ionization of the surrounding medium.

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Figure 1. Left: HST WFC3/IR two-color image in the region of MACS J0138.0−2155 from 2016, using F105W (blue) and F160W (orange). SN Requiem is marked in its three visible image positions by white circles, notably absent in 2023. Right: combined JWST/NIRCam and HST/WFC3 color image from programs 6549 and 16264 (Table 1). The filters used are F105W+F115W+F125W (blue), F150W+F160W+F200W (green), and F277W+F356W+F444W (red). The images were drizzled to 0 02 pix −1 , and the image scale and orientation are as shown. The three detected image positions of SN Encore are circled, but it is not visible at this scale, and all five images of the host galaxy are labeled (A-E). For a zoom-in of each of the detected image positions, see Section 2 (Image Credit: STScI, A. Koekemoer, T. Li).
Figure 2. The observed light curve in the JWST/NIRCam short-wavelength filters for image A, the brightest and last to arrive (see Figure 3). The longwavelength filters (F277W, F356W, and F444W) were observed, but a more in-depth host-galaxy modeling effort (or a template image) will be required to measure accurate photometry.
Figure 3. JWST/NIRCam color cutouts with F115W (blue), F150W (green) and F200W (red) centered on image A (top), B (middle), and C (bottom) of SN Encore. Note the discovery program only detected SN Encore in F150W, so the first column is a grayscale image in F150W, while the remainder are three-color images. The images were drizzled to 0 02 pix −1 , with the image scale, orientation, and MJD (relative to discovery) shown. SN Encore is brightest in the discovery epoch and is on the decline in the subsequent epochs, but the evolution is relatively small at this redshift and is therefore difficult to see by eye (see Figure 2). Image C was first to arrive followed by image B, and although image C is not clearly visible by eye, it was detected at ∼5σ (see Section 2.1.1).
Figure 4. The (normalized) extracted G235M spectrum of SN Encore with 1σ uncertainty (faint red), with the binned spectrum superimposed (thick red line). The best-match spectrum from SNID (SN 2004eo; black line) is shown for comparison, with characteristic SN Ia features labeled in green text, confirming that SN Encore is of Type Ia.
Lensed Type Ia Supernova “Encore” at z = 2: The First Instance of Two Multiply Imaged Supernovae in the Same Host Galaxy

May 2024

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49 Reads

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19 Citations

The Astrophysical Journal Letters

A bright ( m F150W,AB = 24 mag), z = 1.95 supernova (SN) candidate was discovered in JWST/NIRCam imaging acquired on 2023 November 17. The SN is quintuply imaged as a result of strong gravitational lensing by a foreground galaxy cluster, detected in three locations, and remarkably is the second lensed SN found in the same host galaxy. The previous lensed SN was called “Requiem,” and therefore the new SN is named “Encore.” This makes the MACS J0138.0−2155 cluster the first known system to produce more than one multiply imaged SN. Moreover, both SN Requiem and SN Encore are Type Ia SNe (SNe Ia), making this the most distant case of a galaxy hosting two SNe Ia. Using parametric host fitting, we determine the probability of detecting two SNe Ia in this host galaxy over a ∼10 yr window to be ≈3%. These observations have the potential to yield a Hubble constant ( H 0 ) measurement with ∼10% precision, only the third lensed SN capable of such a result, using the three visible images of the SN. Both SN Requiem and SN Encore have a fourth image that is expected to appear within a few years of ∼2030, providing an unprecedented baseline for time-delay cosmography.


Figure 1. The UVCANDELS F275W coadded count-rate and exposure maps for the four premier CANDELS fields: GOODS-N, GOODS-S, COSMOS, and EGS, shown in panels (a), (b), (c), and (d) respectively. For all four fields, the exposure maps are on the same color scale represented by the color bar on the bottom. In all maps, we also overlay the footprints of the CANDELS F160W mosaics in magenta lines.
Ultraviolet and Blue Optical Imaging of UVCANDELS

January 2024

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6 Reads

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4 Citations

Research Notes of the AAS

The UltraViolet Imaging of the Cosmic Assembly Near-infrared Deep Extragalactic Legacy Survey Fields (UVCANDELS) survey provided ultraviolet F275W imaging with coordinated parallel optical F435W imaging in four of the five CANDELS fields: GOODS-N, GOODS-S, EGS, and COSMOS, covering a total area of ∼426 arcmin ² . UVCANDELS takes primary WFC3/UVIS F275W exposures at a uniform 3-orbit depth and ACS F435W exposures (in parallel) at slightly varying depth due to the roll angle constraints and the overlap from the increased field of view of the ACS camera, reaching a limiting magnitude of ∼27 and ∼28 ABmag (5 σ in 0.″2 apertures) for F275W and F435W, respectively. We present the results of the UVCANDELS observations, custom calibrations, and the creation of F275W and F435W imaging mosaics, which have been made publicly available on the Barbara A. Mikulski Archive for Space Telescopes.


Figure 3. The distribution of redshifts across the SMACS 0723 field. Different redshift regimes, where we use our methodology to investigate the morphological evolution, are shown as differently-colored markers.
Figure 5. Comparison HST vs JWST images for a select few galaxies within our sample. On the left shows the HST F160W image, whilst the middle panel shows the JWST view at the same orientation. The far right panel shows the color image of this system as seen through the JWST NIRCam F277W, F356W and F444W filters.
Figure 6. Concentration vs. Asymmetry. The abundance of disks results in their populating the area originally used for selecting late-type galaxies. Decision thresholds shown here are drawn from (Bershady et al. 2000).
Figure 7. Plot showing the Sérsic index evolution in bins of redshift. Shown are the morphological types and their average values for these indices. We can see that the average hovers about n = 1, but that the spheroids appear to have slightly higher values even at the higher redshifts.
Panic! At the Disks: First Rest-frame Optical Observations of Galaxy Structure at z>3z > 3 with JWST in the SMACS 0723 Field

July 2022

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1,215 Reads

We present early results regarding the morphological and structural properties of galaxies seen with the James Webb Space Telescope at z>3z > 3 in the Early Release Observations of SMACS 0723, a galaxy cluster at z=0.39. We investigate, for the first time, the optical morphologies of a significant number of z>3z > 3 galaxies with accurate photometric redshifts in this field to determine the form of galaxy structure in the relatively early universe. We use visual morphologies and \textsc{Morfometryka} measures to perform quantitative morphology measurements, both parametric with light profile fitting (S\'ersic indices) and non-parametric (CAS values). Using these, we measure the relative fraction of disk, spheroidal, and peculiar galaxies at 3<z<83 < z < 8. We discover the surprising result that at z>1.5z > 1.5 disk galaxies dominate the overall fraction of morphologies, with a factor of 10\sim 10 relative higher number of disk galaxies than seen by the Hubble Space Telescope at these redshifts. Our visual morphological estimates of galaxies align closely with their locations in CAS parameter space and their S\'ersic indices.


Searching for a Galactic component in the IceCube track-like neutrino events

August 2021

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11 Reads

Searches for spatial associations between high-energy neutrinos observed at the IceCube Neutrino Observatory and known astronomical objects may hold the key to establishing the neutrinos' origins and the origins of hadronic cosmic rays. While extragalactic sources like the blazar TXS 0506+056 merit significant attention, Galactic sources may also represent part of the puzzle. Here, we explore whether open clusters and supernova remnants in the Milky Way contribute measurably to the IceCube track-like neutrino events above 200 TeV. By searching for positional coincidences with catalogs of known astronomical objects, we can identify and investigate neutrino events whose origins are potentially Galactic. We use Monte Carlo randomization together with models of the Galactic plane in order to determine whether these coincidences are more likely to be causal associations or random chance. In all analyses presented, the number of coincidences detected was found to be consistent with the null hypothesis of chance coincidence. Our results imply that the combined contribution of Galactic open clusters and supernova remnants to the track-like neutrino events detected at IceCube is well under 30%. This upper limit is compatible with the results presented in other Galactic neutrino studies.


Deep Extragalactic VIsible Legacy Survey (DEVILS): Consistent multi-wavelength photometry for the DEVILS regions (COSMOS, XMMLSS & ECDFS)

June 2021

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18 Reads

The Deep Extragalactic VIsible Legacy Survey (DEVILS) is an ongoing high-completeness, deep spectroscopic survey of \sim60,000 galaxies to Y<<21.2 mag, over \sim6 deg2 in three well-studied deep extragalactic fields: D10 (COSMOS), D02 (XMM-LSS) and D03 (ECDFS). Numerous DEVILS projects all require consistent, uniformly-derived and state-of-the-art photometric data with which to measure galaxy properties. Existing photometric catalogues in these regions either use varied photometric measurement techniques for different facilities/wavelengths leading to inconsistencies, older imaging data and/or rely on source detection and photometry techniques with known problems. Here we use the ProFound image analysis package and state-of-the-art imaging datasets (including Subaru-HSC, VST-VOICE, VISTA-VIDEO and UltraVISTA-DR4) to derive matched-source photometry in 22 bands from the FUV to 500{\mu}m. This photometry is found to be consistent, or better, in colour-analysis to previous approaches using fixed-size apertures (which are specifically tuned to derive colours), but produces superior total source photometry, essential for the derivation of stellar masses, star-formation rates, star-formation histories, etc. Our photometric catalogue is described in detail and, after internal DEVILS team projects, will be publicly released for use by the broader scientific community.


Deep Extragalactic VIsible Legacy Survey (DEVILS): consistent multiwavelength photometry for the DEVILS regions (COSMOS, XMMLSS, and ECDFS)

June 2021

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22 Reads

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38 Citations

Monthly Notices of the Royal Astronomical Society

The Deep Extragalactic VIsible Legacy Survey (DEVILS) is an ongoing high-completeness, deep spectroscopic survey of ∼60 000 galaxies to Y < 21.2 mag, over ∼6 deg2 in three well-studied deep extragalactic fields: D10 (COSMOS), D02 (XMM-LSS) and D03 (ECDFS). Numerous DEVILS projects all require consistent, uniformly-derived and state-of-the-art photometric data with which to measure galaxy properties. Existing photometric catalogues in these regions either use varied photometric measurement techniques for different facilities/wavelengths leading to inconsistencies, older imaging data and/or rely on source detection and photometry techniques with known problems. Here we use the ProFound image analysis package and state-of-the-art imaging datasets (including Subaru-HSC, VST-VOICE, VISTA-VIDEO and UltraVISTA-DR4) to derive matched-source photometry in 22 bands from the FUV to 500 μm. This photometry is found to be consistent, or better, in colour-analysis to previous approaches using fixed-size apertures (which are specifically tuned to derive colours), but produces superior total source photometry, essential for the derivation of stellar masses, star-formation rates, star-formation histories, etc. Our photometric catalogue is described in detail and, after internal DEVILS team projects, will be publicly released for use by the broader scientific community.


Free-form Lens Model and Mass Estimation of the High-redshift Galaxy Cluster ACT-CL J0102-4915, “El Gordo”

November 2020

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12 Reads

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25 Citations

The Astrophysical Journal

We examine the massive colliding cluster El Gordo, one of the most massive clusters at high redshift. We use a free-form lensing reconstruction method that avoids making assumptions about the mass distribution. We use data from the RELICS program and identify new multiply lensed system candidates. The new set of constraints and free-form method provide a new independent mass estimate of this intriguing colliding cluster. Our results are found to be consistent with earlier parametric models, indirectly confirming the assumptions made in earlier work. By fitting a double gNFW profile to the lens model and extrapolating to the virial radius, we infer a total mass for the cluster of M . We estimate the uncertainty in the mass due to errors in the photometric redshifts and discuss the uncertainty in the inferred virial mass due to the extrapolation from the lens model. We also find in our lens map a mass overdensity corresponding to the large cometary tail of hot gas, reinforcing its interpretation as a large tidal feature predicted by hydrodynamical simulations that mimic El Gordo. Finally, we discuss the observed relation between the plasma and the mass map, finding that the peak in the projected mass map may be associated with a large concentration of colder gas exhibiting possible star formation. El Gordo is one of the first clusters that will be observed with JWST, which is expected to unveil new high-redshift lensed galaxies around this interesting cluster and provide a more accurate estimation of its mass.


Are starburst galaxies a common source of high energy neutrinos and cosmic rays?

October 2019

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14 Reads

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40 Citations

A recent analysis of cosmic ray air showers observed at the Pierre Auger Observatory indicates that nearby starburst galaxies (SBGs) might be the cause of ∼10% of the Ultra-High-Energy Cosmic Ray flux at energies E > 39 EeV . Since high energy neutrinos are a direct product of cosmic ray interactions, we investigate SBGs as a possible source of some of the ∼ 10⁻²–1 PeV neutrinos observed at IceCube. A statistical analysis is performed to establish the degree of positional correlation between the observed neutrinos and a set of 45 nearby radio- and infrared-bright SBGs. Our results are consistent with no causal correlation. However, a scenario where ∼ 10% of the High Energy Starting Events (HESE) in the detector are coming from the candidate SBGs is not excluded. The same conclusion is reached for different data subsets, as well as two different subsets of SBGs motivated by the Pierre Auger Observatory analysis.


Chronos: A NIR spectroscopic survey to target the most important phases of galaxy evolution across cosmic time

August 2019

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312 Reads

(Abridged summary) Responding to ESA's Voyage 2050 call to define the long-term plan for the future space missions that will address the astrophysics science questions during the 2035-2050 cycle, we propose a dedicated, ultra-deep spectroscopic survey in the near infrared (NIR), that will target a mass-limited sample of galaxies during two of the most fundamental epochs of cosmic evolution: the formation of the first galaxies (at z>6; cosmic dawn), and at the peak of galaxy formation activity (between redshift z=1 and 3; cosmic noon). By way of NIR observations, it is possible to study the Lyman-alpha region in the former, and the optical rest-frame in the latter, allowing us to extract fundamental observables such as gas and stellar kinematics, chemical abundances, and ages, providing a unique legacy database covering these two crucial stages of cosmic evolution. A dedicated, space-based facility will overcome the challenges faced by ground-based telescopes, no matter how large the aperture, or the reduced field of view and low multiplex factor of the best space-based instrument in the near future, namely NIRSpec at the JWST. Our project (codename Chronos) aims to produce about 1 million high quality spectra, with a high S/N in the continuum, where information about the underlying stellar populations is encoded.


Citations (50)


... With ODIN's final dataset, we anticipate a sample of >100,000 LAEs covering an area of ∼100 deg 2 . Due to the vast photometric coverage in COSMOS from surveys like UVCANDELS (Grogin et al. 2011;Koekemoer et al. 2011;Wang et al. 2024), ODIN's LAE sample opens up many opportunities for synergistic research. ...

Reference:

ODIN: Star Formation Histories Reveal Formative Starbursts Experienced by Lyman Alpha Emitting Galaxies at Cosmic Noon
Ultraviolet and Blue Optical Imaging of UVCANDELS

Research Notes of the AAS

... In the same host galaxy as SN Requiem, a second SN, "SN Encore," was discovered, marking the first occurrence of a lensed galaxy producing multiple observed SNe (J. D. R. Pierel et al. 2024). Across all of these SNe, SN Refsdal is the only one to provide precision H 0 constraints to date. ...

Lensed Type Ia Supernova “Encore” at z = 2: The First Instance of Two Multiply Imaged Supernovae in the Same Host Galaxy

The Astrophysical Journal Letters

... There are 276 galaxies in the full Early Science Hi catalogue. We cross-matched these galaxies with the Deep Extragalactic VIsible Legacy Survey (DEVILS; Davies et al. 2018) photometric catalogue (Davies et al. 2021), in order to obtain ultraviolet through to midand far-infrared data measured in a consistent way using ProFOUND (Robotham et al. 2018). The DEVILS photometric catalogue is derived from the imaging data using the Galaxy Evolution Explorer ), Spitzer Space Telescope (Lonsdale et al. 2003;Sanders et al. 2007;Mauduit et al. 2012) (mid-infrared, IRAC ch1-ch4 and MIPS 24 , 70 ), and the Herschel Space Observatory (Oliver et al. 2012) (far-infrared, PACS and SPIRE). ...

Deep Extragalactic VIsible Legacy Survey (DEVILS): consistent multiwavelength photometry for the DEVILS regions (COSMOS, XMMLSS, and ECDFS)
  • Citing Article
  • June 2021

Monthly Notices of the Royal Astronomical Society

... Until now, strong-lensing models of galaxy clusters have only considered the positions of pointlike multiplyimaged sources as observables (e.g., Lagattuta et al. 2019;Caminha et al. 2019;Acebron et al. 2020;Diego et al. 2020;Zitrin et al. 2020). The avenue of highresolution, multi-band imaging of lens clusters, together with extensive ground-or space-based follow-up spectroscopy, has enabled important progress in the lens modeling of galaxy clusters. ...

Free-form Lens Model and Mass Estimation of the High-redshift Galaxy Cluster ACT-CL J0102-4915, “El Gordo”
  • Citing Article
  • November 2020

The Astrophysical Journal

... However, the highly turbulent and dense interstellar medium (ISM) in SBGs could, in principle, absorb a significant fraction of the CRs produced within them. A way to test this hypothesis is by searching for high-energy neutrinos from SBGs (e.g., Loeb and Waxman, 2006;Lunardini et al., 2019;Ambrosone et al., 2021). Gamma rays, which can be produced by the same mechanisms as neutrinos, might also serve as a counterpart (H.E.S.S. Collaboration, 2009;Bykov, 2014;Ohm, 2016;Linden, 2017), but the ISM could also be opaque to their propagation, making the detection of this counter-Cent. ...

Are starburst galaxies a common source of high energy neutrinos and cosmic rays?

... (L. J. M. Davies et al. 2018), the Multi-Object Optical and Near-Infrared Spectrograph (R. Maiolino et al. 2020) survey, the Subaru Prime Focus Spectrograph (M. Takada et al. 2014) survey, and the Wide Area VISTA Extragalactic Survey (S. ...

Deep Extragalactic VIsible Legacy Survey (DEVILS): Motivation, design, and target catalogue

Monthly Notices of the Royal Astronomical Society

... But in addition to the inhibitive mechanisms, AGN emission is also expected to boost star formation (positive feedback) in the host. Theoretical models and simulation studies have predicted shock-driven enhancement of starburst activity in the vicinity of the radio jets (Begelman & Cioffi 1989;Rees 1989;Tortora et al. 2009;Gaibler et al. 2012;Dugan et al. 2014Dugan et al. , 2017Fragile et al. 2017;Gardner et al. 2017) and radiative outflows (King 2005;Ishibashi & Fabian 2012;Silk 2013;Dugan et al. 2017). Observational evidence of this effect on sub-galactic scale has been limited regarding both quasar-mode (Cresci et al. 2015a(Cresci et al. , 2015bCarniani et al. 2016) and radio-mode (Salomé et al. 2015;Santoro et al. 2015;Zovaro et al. 2020) processes, but has been growing with the advent of integral field studies of active galaxies at higher redshifts, where strong impacts of feedback are expected. ...

Numerical Simulation of Star Formation by the Bow Shock of the Centaurus A Jet

The Astrophysical Journal

... Morphological studies of sources with detections at both optical/UV and submillimeter wavelengths have revealed that the DSFG population is often much more compact at longer wavelengths than at shorter wavelengths (e.g., Barro et al. 2016;Hodge et al. 2016;Oteo et al. 2016;Rujopakarn et al. 2016;Fujimoto et al. 2017;Tadaki et al. 2017;Gullberg et al. 2019;Nelson et al. 2019). However, this is not always the case, as Sun et al. (2021) report two spatially extended DSFGs with submillimeter sizes exceeding the IR sizes from Spitzer/IRAC data. ...

VLA and ALMA Imaging of Intense, Galaxy-Wide Star Formation in z ~ 2 Galaxies
  • Citing Article
  • July 2016

The Astrophysical Journal

... For visually impaired people (VIP), Braille and its production techniques and equipment allow a blind or low-vision person to have access to texts and descriptions. However, the difficulty of translating the information that an image can contain narrows the portal for these people to access the areas of science, technology, engineering, and mathematics (STEM), expanding learning problems from the lowest age groups [1]. ...

Research and Teaching: Methods for Creating and Evaluating 3D Tactile Images to Teach STEM Courses to the Visually Impaired
  • Citing Article
  • January 2015

Journal of College Science Teaching

... This is because the evolution of the Schechter UV luminosity Function (LF) is very rapid [262,263]. While the faint-end LF-slope does not get much steeper than α -2 for z > ∼ 6 [264,265], the characteristic density Φ * and characteristic luminosity M * potentially decline very rapidly with redshift. At z > ∼ 8, we expect for JWST Φ * < ∼ 10 −3.5 (Mpc −3 ) and that M * may drop below -18 mag at z > ∼ 10. ...

"Observing and Analyzing" Images From a Simulated High Redshift Universe

Publications of the Astronomical Society of the Pacific