On the abundance of gravitational arcs produced by submillimeter galaxies at radio and submm wavelengths

Fedeli, C.; Alba, A. Berciano

doi:10.1051/0004-6361/200912884

Cited by 5 publications

(9 citation statements)

References 100 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We adopt the redshift distribution and number counts for sources in the Hubble Ultra Deep Field (UDF) provided by Coe et al (2006) for F775W and F160W, and correct the number counts for the lensing magnification bias using the same procedure detailed in Fedeli et al (2008) and Fedeli & Berciano Alba (2009). For the practical computation of the optical depth, we use the strategy detailed in Fedeli et al (2008) and references therein.…”

Section: Cosmological Implicationsmentioning

confidence: 99%

“…Briefly, merger trees are constructed based on the extended Press & Schechter (1974) theory, which represent a model of the cluster population. A lensing potential ellipticity is assigned to each cluster, extracted from the distribution shown in Fedeli & Berciano Alba (2009), and cluster dynamical activity occurring at the knots of the merger trees is suitably modeled. Individual clusters are modeled as NFW profiles with the assigned potential ellipticity, and the concentration is linked to the mass through the Gao et al (2008) prescription for the concentration, consistent with Section 4.2.…”

Section: Cosmological Implicationsmentioning

confidence: 99%

See 1 more Smart Citation

IDCS J1426.5+3508: COSMOLOGICAL IMPLICATIONS OF A MASSIVE, STRONG LENSING CLUSTER ATz= 1.75

Gonzalez

Stanford

Brodwin

et al. 2012

ApJ

View full text Add to dashboard Cite

The galaxy cluster IDCS J1426.5+3508 at z = 1.75 is the most massive galaxy cluster yet discovered at z > 1.4 and the first cluster at this epoch for which the Sunyaev-Zel'Dovich effect has been observed. In this paper, we report on the discovery with Hubble Space Telescope imaging of a giant arc associated with this cluster. The curvature of the arc suggests that the lensing mass is nearly coincident with the brightest cluster galaxy, and the color is consistent with the arc being a star-forming galaxy. We compare the constraint on M 200 based upon strong lensing with Sunyaev-Zel'Dovich results, finding that the two are consistent if the redshift of the arc is z 3. Finally, we explore the cosmological implications of this system, considering the likelihood of the existence of a strongly lensing galaxy cluster at this epoch in a ΛCDM universe. While the existence of the cluster itself can potentially be accommodated if one considers the entire volume covered at this redshift by all current high-redshift cluster surveys, the existence of this strongly lensed galaxy greatly exacerbates the long-standing giant arc problem. For standard ΛCDM structure formation and observed background field galaxy counts this lens system should not exist. Specifically, there should be no giant arcs in the entire sky as bright in F814W as the observed arc for clusters at z 1.75, and only ∼0.3 as bright in F160W as the observed arc. If we relax the redshift constraint to consider all clusters at z 1.5, the expected number of giant arcs rises to ∼15 in F160W, but the number of giant arcs of this brightness in F814W remains zero. These arc statistic results are independent of the mass of IDCS J1426.5+3508. We consider possible explanations for this discrepancy.

show abstract

Section: Cosmological Implicationsmentioning

confidence: 99%

Section: Cosmological Implicationsmentioning

confidence: 99%

IDCS J1426.5+3508: COSMOLOGICAL IMPLICATIONS OF A MASSIVE, STRONG LENSING CLUSTER ATz= 1.75

Gonzalez

Stanford

Brodwin

et al. 2012

ApJ

View full text Add to dashboard Cite

show abstract

“…The prospects of carrying out surveys for radio emitting star‐forming galaxies behind clusters have become more appealing with the advent of new or upgraded radio facilities (see previous work by Garrett, Knudsen & van der Werf 2005; Berciano Alba et al 2010). Simulations by Fedeli & Berciano Alba (2009) find that over the whole sky, several 100 cluster lens systems could potentially be found from deep radio observations (∼20 μJy arcsec −2 surface‐brightness sensitivity at 1.4 GHz) that are within the sensitivity limits of, for example, the Expanded VLA.…”

Section: Discussion and Summarymentioning

confidence: 82%

The final candidate from the JVAS/CLASS search for 6-15 arcsec image separation lensing

McKean

2010

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

A search for 6–15 arcsec image separation lensing in the Jodrell Bank–Very Large Array Astrometric Survey (JVAS) and the Cosmic Lens All‐Sky Survey (CLASS) by Phillips et al. found 13 group and cluster gravitational lens candidates. Through radio and optical imaging and spectroscopy, Phillips et al. ruled out the lensing hypothesis for 12 of the candidates. In this paper, new optical imaging and spectroscopy of J0122+427, the final lens candidate from the JVAS/CLASS 6–15 arcsec image separation lens search, are presented. This system is found not to be a gravitational lens, but is just two radio‐loud active galactic nuclei that are separated by ∼10 arcsec on the sky and are at different redshifts. Therefore, it is concluded that there are no gravitational lenses in the JVAS and CLASS surveys with image separations between 6–15 arcsec. This result is consistent with the expectation that group‐ and cluster‐scale dark matter haloes are inefficient lenses due to their relatively flat inner density profiles.

show abstract

“…This topic is discussed in a paper by Fedeli and Berciano Alba (2009). As pointed out by Blain (1996Blain ( , 1997, the fraction of lensed sources observed in the mm/submm wavebands is expected to be much larger than in the optical.…”

Section: +22mentioning

confidence: 97%

“…This effect, together with the steep slope of the observed submm number counts, produces a strong magnification bias that makes submm galaxies an ideal source population for the production of lensed arcs. Fedeli and Berciano Alba (2009) estimated that a submm all-sky survey with a sensitivity of 1 mJy arcsec −2 will detect hundreds of arcs with a 5σ significance. In the radio, this number can be achieved with a sensitivity of 10-20 µJy arcsec −2 .…”

Section: +22mentioning

confidence: 99%

Arc Statistics

Meneghetti

Bartelmann²,

Dahle

et al. 2013

Space Sci Rev

View full text Add to dashboard Cite

The existence of an arc statistics problem was at the center of a strong debate in the last fifteen years. With the aim to clarify if the optical depth for giant gravitational arcs by galaxy clusters in the so called concordance model is compatible with observations, several studies were carried out which helped to significantly improve our knowledge of strong lensing clusters, unveiling their extremely complex internal structure. In particular, the abundance and the frequency of strong lensing events like gravitational arcs turned out to be a potentially very powerful tool to trace the structure formation. However, given the limited size of observational and theoretical data-sets, the power of arc statistics as a cosmological tool has been only minimally exploited so far. On the other hand, the last years were characterized by significant advancements in the field, and several cluster surveys that are ongoing or planned for the near future seem to have the potential to make arc statistics a competitive cosmological probe. Additionally, recent observations of anomalously large Einstein radii and concentrations in galaxy clusters have reinvigorated the debate on the arc statistics problem. In this paper, we review the work done so far on arc statistics, focussing on what is the lesson we learned and what is likely to improve in the next years.

show abstract

On the abundance of gravitational arcs produced by submillimeter galaxies at radio and submm wavelengths

Cited by 5 publications

References 100 publications

IDCS J1426.5+3508: COSMOLOGICAL IMPLICATIONS OF A MASSIVE, STRONG LENSING CLUSTER ATz= 1.75

IDCS J1426.5+3508: COSMOLOGICAL IMPLICATIONS OF A MASSIVE, STRONG LENSING CLUSTER ATz= 1.75

The final candidate from the JVAS/CLASS search for 6-15 arcsec image separation lensing

Arc Statistics

Contact Info

Product

Resources

About