Your search keyword '"Dahle, Håkon"' showing total 17 results

1. TEMPLATES: Characterization of a Merger in the Dusty Lensing SPT0418–47 System.

Author

Cathey, Jared, Gonzalez, Anthony H., Lower, Sidney, Phadke, Kedar A., Spilker, Justin, Aravena, Manuel, Bayliss, Matthew, Birkin, Jack E., Birrer, Simon, Chapman, Scott, Dahle, Håkon, Hayward, Christopher C., Hezaveh, Yashar, Hill, Ryley, Hutchison, Taylor A., Kim, Keunho J., Mahler, Guillaume, Marrone, Daniel P., Narayanan, Desika, and Navarre, Alexander

Subjects

STELLAR mass, MERGERS & acquisitions, STAR formation, GALACTIC redshift, GALAXIES, SUBMILLIMETER astronomy

Abstract

We present JWST and Atacama Large Millimeter/submillimeter Array (ALMA) imaging for the lensing system SPT0418−47, which includes a strongly lensed, dusty, star-forming galaxy at redshift z = 4.225 and an associated multiply imaged companion. The JWST NIRCam and MIRI imaging observations presented in this paper were acquired as part of the Early Release Science program Targeting Extremely Magnified Panchromatic Lensed Arcs and Their Extended Star formation (TEMPLATES). This data set provides robust mutiwavelength detections of stellar light in both the main (SPT0418A) and companion (SPT0418B) galaxies, while the ALMA detection of [C ii ] emission confirms that SPT0418B lies at the same redshift as SPT0418A. We infer that the projected physical separation of the two galaxies is 4.42 ± 0.05 kpc. We derive total magnifications of μ = 29 ± 1 and μ = 4.1 ± 0.7 for SPT0418A and SPT0418B, respectively. We use both prospector and cigale to derive stellar masses. We find that SPT0418A has a stellar mass of M * = 3.4 − 0.6 + 1.1 × 10 10 M ⊙ from prospector or M * = 1.5 ± 0.3 × 1010 M ⊙ from cigale. The stellar mass ratio of SPT0418A and SPT0418B is roughly between 4 and 7 ( 4.2 − 1.6 + 1.9 for prospector and 7.5 ± 3.7 for cigale). We see evidence of extended structure associated with SPT0418A that is suggestive of a tidal feature. These features, along with the close projected proximity, imply that the system is interacting. Interestingly, the star formation rates and stellar masses of both galaxies are consistent with the main sequence of star-forming galaxies at this epoch, indicating that this ongoing interaction has not noticeably elevated the star formation levels. [ABSTRACT FROM AUTHOR]

Published

2024

2. COOL-LAMPS. IV. A Sample of Bright Strongly Lensed Galaxies at 3 < z < 4.

Author

Zhang, Yunchong, Manwadkar, Viraj, Gladders, Michael D., Khullar, Gourav, Dahle, Håkon, Napier, Kate A., Mahler, Guillaume, Sharon, Keren, Matthews Acuña, Owen S., Ashmead, Finian, Cerny, William, Gonzàlez, Juan Remolina, Gozman, Katya, Levine, Benjamin C., Marohnic, Daniel, Martinez, Michael N., Merz, Kaiya, Pan, Yue, Sanchez, Jorge A., and Sierra, Isaac

Subjects

GALAXIES, GALACTIC magnitudes, STELLAR mass, SPECTRAL imaging, OPTICAL spectroscopy

Abstract

We report the discovery of five bright, strong gravitationally lensed galaxies at 3 < z < 4: COOL J0101+2055 (z = 3.459), COOL J0104−0757 (z = 3.480), COOL J0145+1018 (z = 3.310), COOL J0516−2208 (z = 3.549), and COOL J1356+0339 (z = 3.753). These galaxies have magnitudes of r AB, z AB < 21.81 mag and are lensed by galaxy clusters at 0.26 < z < 1. This sample nearly doubles the number of known bright lensed galaxies with extended arcs at 3 < z < 4. We characterize the lensed galaxies using ground-based grz / giy imaging and optical spectroscopy. We report model-based magnitudes and derive stellar masses, dust content, and star formation rates via stellar population synthesis modeling. Building lens models based on ground-based imaging, we estimate source magnifications ranging from ∼29 to ∼180. Combining these analyses, we derive demagnified stellar masses in the range log 10 (M * / M ⊙) ∼ 9.69 − 10.75 and star formation rates in the youngest age bin in the range log 10 (SFR / (M ⊙ yr − 1)) ∼ 0.39 − 1.46 , placing the sample galaxies on the massive end of the star-forming main sequence in this redshift interval. In addition, three of the five galaxies have strong Ly α emissions, offering unique opportunities to study Ly α emitters at high redshift in future work. [ABSTRACT FROM AUTHOR]

Published

2023

3. COOL–LAMPS. III. Discovery of a 25.″9 Separation Quasar Lensed by a Merging Galaxy Cluster.

Author

Martinez, Michael N., Napier, Kate A., Cloonan, Aidan P., Sukay, Ezra, Gozman, Katya, Merz, Kaiya, Khullar, Gourav, Lin, Jason J., Matthews Acuña, Owen S., Medina, Elisabeth, Sanchez, Jorge A., Sisco, Emily E., Kavin Stein, Daniel J., Tavangar, Kiyan, González, Juan Remolina, Mahler, Guillaume, Sharon, Keren, Dahle, Håkon, and Gladders, Michael D.

Subjects

RADIAL velocity of galaxies, QUASARS, GALAXY clusters, MERGERS & acquisitions, OPTICAL images

Abstract

In the third paper from the COOL–LAMPS Collaboration, we report the discovery of COOL J0542-2125, a gravitationally lensed quasar at z = 1.84, observed as three images due to an intervening massive galaxy cluster at z = 0.61. The lensed quasar images were identified in a search for lens systems in recent public optical imaging data and have separations on the sky up to 25.″9, wider than any previously known lensed quasar. The galaxy cluster acting as a strong lens appears to be in the process of merging, with two subclusters separated by ∼1 Mpc in the plane of the sky, and their central galaxies showing a radial velocity difference of ∼1000 km s−1. Both cluster cores show strongly lensed images of an assortment of background sources, as does the region between them. A preliminary strong lens model implies masses of M < 250 k p c = 1.79 − 0.01 + 0.16 × 10 14 M ⊙ and M < 250 k p c = 1.48 − 0.10 + 0.04 × 10 14 M ⊙ for the east and west subclusters, respectively. This line of sight is also coincident with an ROSAT ALL-sky Survey source, centered between the two confirmed cluster halos reminiscent of other major cluster-scale mergers. Archival and new follow-up imaging show flux variability in the quasar images of up to 0.4 mag within ∼1 yr, and new multicolor imaging data reveal a 2 σ detection of the underlying quasar host. A lens system with this configuration offers rare opportunities for a range of future studies of both the lensed quasar and its host and the foreground cluster merger causing the lensing. [ABSTRACT FROM AUTHOR]

Published

2023

4. Spatial Variation in Strong Line Ratios and Physical Conditions in Two Strongly Lensed Galaxies at z ∼ 1.4.

Author

Florian, Michael K., Rigby, Jane R., Acharyya, Ayan, Sharon, Keren, Gladders, Michael D., Kewley, Lisa, Khullar, Gourav, Gozman, Katya, Brammer, Gabriel, Momcheva, Ivelina, Nicholls, David, LaMassa, Stephanie, Dahle, Håkon, Bayliss, Matthew B., Wuyts, Eva, Johnson, Traci, and Whitaker, Katherine

Subjects

SPATIAL variation, GALAXIES, STAR formation, SPACE telescopes, INFRARED cameras

Abstract

Upcoming space-based integral field spectrographs will enable spatially resolved spectroscopy of distant galaxies, including at the scale of individual star-forming regions (i.e., down to just tens of parsecs) in galaxies that have been strongly gravitationally lensed. In the meantime, there is only a very small set of lensed galaxies where such spatial detail is possible at wavelengths containing important rest-optical emission lines, even with the Hubble Space Telescope's Wide Field Camera 3 infrared channel grisms. Here, we examine two of these sources, SDSS J1723+3411 and SDSS J2340+2947, using HST WFC3/IR grism data and supporting spatially unresolved spectroscopy from several ground-based instruments to explore the size of spatial variations in observed strong emission-line ratios like O32 and R23, which are sensitive to ionization parameter and metallicity, and the Balmer decrement, which is an indicator of reddening. We find significant spatial variation in the reddening and in the reddening-corrected O32 and R23 values that correspond to spreads of a few tenths of a dex in ionization parameter and metallicity. We also find clear evidence of a negative radial gradient in star formation in SDSS J2340+2947 and tentative evidence of one in SDSS J1723+3411, though its star formation is quite asymmetric. Finally, we find that reddening can vary enough spatially to make spatially resolved reddening corrections necessary in order to characterize gradients in line ratios and the physical conditions inferred from them, necessitating the use of space-based integral field units for future work on larger, more statistically robust samples. [ABSTRACT FROM AUTHOR]

Published

2021

5. The Black Hole Mass of the z = 2.805 Multiply Imaged Quasar SDSS J2222+2745 from Velocity-resolved Time Lags of the C iv Emission Line.

Author

Williams, Peter R., Treu, Tommaso, Dahle, Håkon, Valenti, Stefano, Abramson, Louis, Barth, Aaron J., Dyrland, Karianne, Gladders, Michael, Horne, Keith, and Sharon, Keren

Subjects

BLACK holes, OPTICAL telescopes, LIGHT curves, QUASARS, SPECTROGRAPHS, DATA quality

Abstract

We present the first results of a 4.5 yr monitoring campaign of the three bright images of multiply imaged z = 2.805 quasar SDSS J2222+2745 using the Gemini North Multi-Object Spectrograph and the Nordic Optical Telescope. We take advantage of gravitational time delays to construct light curves surpassing 6 yr in duration in the observed frame and achieve an average spectroscopic cadence of 10 days during the 8 months of visibility per season. Using multiple secondary calibrators and advanced reduction techniques, we achieve percent-level spectrophotometric precision and carry out an unprecedented reverberation mapping analysis, measuring both integrated and velocity-resolved time lags for the C iv emission line. The full line lags the continuum by rest-frame days. We combine our measurement with published C iv emission line lags and derive the rBLR − L relationship with 0.30 ± 0.06 dex intrinsic scatter. The velocity-resolved lags are consistent with circular Keplerian orbits, with , , and rest-frame days for the core, blue wing, and red wing, respectively. Using σline with the mean spectrum and assuming , we derive. Given the quality of the data, this system represents a unique benchmark for calibration of MBH estimators at high redshift. Future work will present dynamical modeling of the data to constrain the virial factor f and MBH. [ABSTRACT FROM AUTHOR]

Published

2021

6. A Comparison of Rest-frame Ultraviolet and Optical Emission-line Diagnostics in the Lensed Galaxy SDSS J1723+3411 at Redshift z = 1.3293.

Author

Rigby, J. R., Florian, Michael, Acharyya, A., Bayliss, Matthew, Gladders, Michael D., Sharon, Keren, Brammer, Gabriel, Momcheva, Ivelina, LaMassa, Stephanie, Bian, Fuyan, Dahle, Håkon, Johnson, Traci, Kewley, Lisa, Murray, Katherine, Whitaker, Katherine, and Wuyts, Eva

Subjects

EMISSION-line galaxies, SPACE telescopes, GALAXIES

Abstract

For the extremely bright lensed galaxy SDSS J1723+3411 at z = 1.3293, we analyze spatially integrated MMT, Keck, and Hubble Space Telescope spectra that fully cover the rest-frame wavelength range of 1400–7200 Å. We also analyze near-IR spectra from Gemini that cover Hα for a portion of the lensed arc. We report fluxes for 42 detected emission lines, and upper limits for an additional 22. This galaxy has extreme emission-line ratios and high equivalent widths that are characteristic of extreme emission-line galaxies. We compute strong emission-line diagnostics from both the rest-frame optical and rest-frame ultraviolet (UV), to constrain physical conditions and test the spectral diagnostics themselves. We tightly determine the nebular physical conditions using the most reliable diagnostics, and then compare to results from other diagnostics. We find disappointing performance from the UV-only diagnostics: they either are unable to measure the metallicity or dramatically underestimate it; they overestimate the pressure; and the UV diagnostic of ionization parameter has a strong metallicity dependence in this regime. Based on these results, we suggest that upcoming James Webb Space Telescope (JWST) spectroscopic surveys of galaxies in the reionization epoch should invest the additional integration time to capture the optical [O ii ] and [O iii ] emission lines, and not rely solely on the rest-frame UV emission lines. We make available the spectra; they represent one of the highest-quality emission-line spectral atlases of star-forming galaxies available beyond the local universe, and will aid the planning of observations with JWST. [ABSTRACT FROM AUTHOR]

Published

2021

7. COOL-LAMPS. I. An Extraordinarily Bright Lensed Galaxy at Redshift 5.04.

Author

Khullar, Gourav, Gozman, Katya, Lin, Jason J., Martinez, Michael N., Acuńa, Owen S. Matthews, Medina, Elisabeth, Merz, Kaiya, Sanchez, Jorge A., Sisco, Emily E., Stein, Daniel J. Kavin, Sukay, Ezra O., Tavangar, Kiyan, Bayliss, Matthew B., Bleem, Lindsey E., Brownsberger, Sasha, Dahle, HÅkon, Florian, Michael K., Gladders, Michael D., Mahler, Guillaume, and Rigby, Jane R.

Subjects

GALACTIC redshift, STELLAR mass, SPECTRAL imaging, OPTICAL spectroscopy, GALAXY clusters, STAR formation

Abstract

We report the discovery of COOL J1241+2219, a strongly lensed galaxy at redshift z = 5.043 ± 0.002 with observed magnitude zAB = 20.47, lensed by a moderate-mass galaxy cluster at z = 1.001 ± 0.001. COOL J1241+2219 is the brightest lensed galaxy currently known at optical and near-infrared wavelengths at z ≳ 5; it is ∼5 times brighter than the prior record-holder lensed galaxy, and several magnitudes brighter than the brightest unlensed galaxies known at these redshifts. It was discovered as part of COOL-LAMPS, a collaboration initiated to find strongly lensed systems in recent public optical imaging data. We characterize the lensed galaxy, as well as the central galaxy of the lensing cluster using ground-based grizJH imaging and optical spectroscopy. We report model-based magnitudes, and derive stellar masses, dust content, metallicity, and star-formation rates via stellar-population synthesis modeling. Our lens mass modeling, based on ground-based imaging, implies a median source magnification of ∼30, which puts the stellar mass and star-formation rate (in the youngest age bin, closest to the epoch of observation) at logM* = and SFR = M⊙ yr−1, respectively. We constrain a star-formation history for COOL J1241+2219 consistent with constant star formation across ∼1 Gyr of cosmic time, and that places this galaxy on the high-mass end of the star-forming main sequence. COOL J1241+2219 is two to four times more luminous than a galaxy with the characteristic UV luminosity at these redshifts. The UV continuum slope β = −2.2 ± 0.2 places this galaxy on the blue side of the observed distribution of galaxies at z = 5, although the lack of Lyα emission indicates dust sufficient to suppress this emission. [ABSTRACT FROM AUTHOR]

Published

2021

8. SEARCHING FOR COOLING SIGNATURES IN STRONG LENSING GALAXY CLUSTERS: EVIDENCE AGAINST BARYONS SHAPING THE MATTER DISTRIBUTION IN CLUSTER CORES.

Author

BLANCHARD, PETER K., BAYLISS, MATTHEW B., MCDONALD, MICHAEL, DAHLE, HÅKON, GLADDERS, MICHAEL D., SHARON, KEREN, and MUSHOTZKY, RICHARD

Subjects

GALAXY clusters, BARYONS, WEIGHTS & measures, POPULATION, VALUES (Ethics)

Abstract

The process by which the mass density profile of certain galaxy clusters becomes centrally concentrated enough to produce high strong lensing (SL) cross-sections is not well understood. It has been suggested that the baryonic condensation of the intracluster medium (ICM) due to cooling may drag dark matter to the cores and thus steepen the profile. In this work, we search for evidence of ongoing ICM cooling in the first large, well-defined sample of SL selected galaxy clusters in the range 0.1 < z < 0.6. Based on known correlations between the ICM cooling rate and both optical emission line luminosity and star formation, we measure, for a sample of 89 SL clusters, the fraction of clusters that have [O II]λλ3727 emission in their brightest cluster galaxy (BCG). We find that the fraction of line-emitting BCGs is constant as a function of redshift forz > 0.2 and shows no statistically significant deviation from the total cluster population. Specific star formation rates, as traced by the strength of the 4000 Å break, D4000, are also consistent with the general cluster population. Finally, we use optical imaging of the SL clusters to measure the angular separation, Rarc, between the arc and the center of mass of each lensing cluster in our sample and test for evidence of changing [O II] emission and D4000 as a function of Rarc, a proxy observable for SL cross-sections. D4000 is constant with all values of Rarc, and the [O II] emission fractions show no dependence on Rarc for Rarc > 10" and only very marginal evidence of increased weak [O II] emission for systems with Rarc < 10". These results argue against the ability of baryonic cooling associated with cool core activity in the cores of galaxy clusters to strongly modify the underlying dark matter potential, leading to an increase in SL cross-sections. [ABSTRACT FROM AUTHOR]

Published

2013

9. The Density Profile of Cluster-Scale Dark Matter Halos.

Author

Dahle, Håkon, Hannestad, Steen, and Sommer-Larsen, Jesper

Published

2003

10. THE MASS DISTRIBUTION OF THE STRONG LENSING CLUSTER SDSS J1531+3414.

Author

Sharon, Keren, Gladders, Michael D., Rigby, Jane R., Wuyts, Eva, Bayliss, Matthew B., Johnson, Traci L., Florian, Michael K., and Dahle, Håkon

Subjects

GALAXIES, STAR formation, STAR clusters, ASTROPHYSICS

Abstract

We present the mass distribution at the core of SDSS J1531+3414, a strong-lensing cluster at z = 0.335. We find that the mass distribution is well described by two cluster-scale halos with a contribution from cluster-member galaxies. New Hubble Space Telescope observations of SDSS J1531+3414 reveal a signature of ongoing star formation associated with the two central galaxies at the core of the cluster, in the form of a chain of star forming regions at the center of the cluster. Using the lens model presented here, we place upper limits on the contribution of a possible lensed image to the flux at the central region, and rule out that this emission is coming from a background source. [ABSTRACT FROM AUTHOR]

Published

2014

11. TWO LENSED LYMAN-α EMITTING GALAXIES AT z∼ 5.

Author

Bayliss, Matthew B., Wuyts, Eva, Sharon, Keren, Gladders, Michael D., Hennawi, Joseph F., Koester, Benjamin P., and Dahle, Håkon

Published

2010

12. SUBARU WEAK LENSING MEASUREMENTS OF FOUR STRONG LENSING CLUSTERS: ARE LENSING CLUSTERS OVERCONCENTRATED?

Author

Oguri, Masamune, Hennawi, Joseph F., Gladders, Michael D., Dahle, Håkon, Natarajan, Priyamvada, Dalal, Neal, Koester, Benjamin P., Sharon, Keren, and Bayliss, Matthew

Published

2009

13. Calibration of the Mass-Temperature Relation for Clusters of Galaxies Using Weak Gravitational Lensing.

Author

Pedersen, Kristian and Dahle, Håkon

Published

2007

14. The Cluster Mass Function from Weak Gravitational Lensing.

Author

Dahle, Håkon

Published

2006

15. Probing Galaxy Density Profiles with Future Supernova Surveys.

Author

Mörtsell, Edvard, Dahle, Håkon, and Hannestad, Steen

Published

2005

16. Weak Gravitational Lensing by a Sample of X-Ray-luminous Clusters of Galaxies. III. Serendipitous Weak Lensing Detections of Dark and Luminous Mass Concentrations.

Author

Dahle, Håkon, Pedersen, Kristian, Lilje, Per B., Maddox, Steve J., and Kaiser, Nick

Published

2003

17. Weak Gravitational Lensing by a Sample of X-Ray-luminous Clusters of Galaxies. II. Comparison with Virial Masses.

Author

Irgens, Ragnvald J., Lilje, Per B., Dahle, Håkon, and Maddox, S. J.

Published

2002