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Home/ Strong Gravitational Lenses in the Era of Wide-Field Surveys/ Contents contributed and discussions participated by Phil Marshall

Contents contributed and discussions participated by Phil Marshall

Phil Marshall

COSMOGRAIL: the COSmological MOnitoring of GRAvItational Lenses XII. Time delays of the... - 0 views

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    Eulaers et al present two new time delay measurements, including one (in SDSS J1206+4332) to 3% accuracy! HS2209 is a new delay, now measured to +/- 25%. They adopt a "netflix" approach to the measurement, combining the results from four different techniques. Interested to see how they weight them.
Phil Marshall

Quasar Lensing - 0 views

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    Jackson reviews this sub-field. Could be a good starting point for new investigators!
Phil Marshall

Reconstructing the Lensing Mass in the Universe from Photometric Catalogue Data - 0 views

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    Collett et al are attempting to use all the information in the galaxy catalog for the field around a strong lens (well, the stellar masses and photometric redshifts, at least) in order to reconstruct, using a halo model, the external convergence at the lens (like Wong, Keeton et al have been doing). In fact, their code (Pangloss) returns the PDF Pr(kappa|data), which can then be propagated into a time delay distance measurement. The model is pretty simple right now, and so everything has to be calibrated to N-body simulations (not dissimilarly from how the Suyu/COSMOGRAIL "H0LiCoW" group have been treating this problem in B1608 and RXJ1131). The goal for the future is to break free of this calibration by increasing the flexibility and physical realism of the mass model.
Phil Marshall

Robust Strong Lensing Time Delay Estimation - 0 views

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    Hojjati, Kim and Linder (LSST DESC TDC Good Team Number 1!) try out their Gaussian Processes time delay estimation, with promising initial results - albeit on just one blinded test dataset. interestingly, they find some benefit to including microlensing in the fit, even when none is input to the mock data - which suggests that measuring microlensing parameters might potentially be tougher than just estimating time delays.
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    Shortly! We have the data, we're just getting it on the web for you. BTW, Eric is referring to our Flotsam code - an independent implementation of GPs for time delays, with different assumptions (and bugs :-) https://github.com/eggplantbren/Flotsam
Phil Marshall

[1210.6049] Effect of Our Galaxy's Motion on Weak Lensing Measurements of Shear and Con... - 0 views

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    Mertens, Yoho & Starkman estimate the effect of our own motion on the convergence and shear and shear we observe, concluding that the kappa introduced is at the 0.001 level while gamma is unaffected. Given a sufficiently large all-sky ensemble, I guess this effect might be detectable as a modulation of the time delay distance signal - but its pretty small.
Phil Marshall

Detection of Substructure in the Gravitationally Lensed Quasar MG0414+0534 using Mid-In... - 2 views

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    MacLeod, Ramsey, Agol & Kochanek use a high resolution 11.2 micron image of MG0414 taken with Michelle on Gemini North to investigate a lens model that includes an additional (third) mass component near to the merging pair of images. The radio and mid IR positions and flux ratios constrain the substructure's Einstein mass to be 10^(7.3+/0.2)Msun. They do not extrapolate to its halo mass, or consider the possibility that it is not at the lens redshift (0.96), but it's a pretty solid detection. They point out how useful JWST will be for this kind of work in future.
Phil Marshall

A simple prescription for simulating and characterizing gravitational arcs - 2 views

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    Furlanetto extend the usual elliptically-symmetric Sersic model for source galaxies to make the major axis a segment of a circle and the ellipse into an "ArcEllipse". They then explore ways of fitting this to pixelated, blurry data, and compromise on a method that underestimates flux but captures (quickly) the L/W ratio found by other methods. Since they base their measurements on SExtractor segmented images, this parameterisation could be adopted by Gavazzi et al's RingFinder code (if something equivalent is not already implemented). Interestingly, the number of parameters needed to specify an ArcEllipse is the same as that needed for a Sersic lensed by an SIS+Shear lens, though the predicted arc surface brightness is different.
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    In my experience SExtractor can do a very nice job at segmenting arcs. The tricky part is finding a SExtractor setup that works for arcs of all shapes, sizes and surface brightnesses. You can certainly bias your sample by choosing one setup over another. This is just a variant of the usual astronomical dynamic range problem of course - all methods have to solve this.
Phil Marshall

COSMOGRAIL XI: Techniques for time delay measurement in presence of microlensing - 1 views

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    The state of the art in time delay estimation: Tewes at el test three different methods for interpolating noisy, sparse, microlensing-infected, gap-ridden optical lensed image lightcurve data, and illustrate the benefits of a) long light curves and b) accurate (not under-estimated) uncertainties. Will these methods be good enough for accurate cosmography with 100-1000 lenses though?
Phil Marshall

The LSST Dark Energy Science Collaboration - 0 views

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    Formed in summer 2012, the LSST DESC sets out its plans for the next few years, preparing to try and measure the accelerating expansion of the Universe very accurately indeed. Most of the work between now and 2020 will be on trying to predict, understand and mitigate against systematic errors in this measurement - so analysis pipelines need defining, implementing (in pieces) and testing on simulations. The strong lensing case is primarily time delay distances from ~1000 lensed quasars and SNe, but multiple source plane systems could play a role as well.
Phil Marshall

Bayesian constraints on dark matter halo properties using gravitationally-lensed supern... - 2 views

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    This is a very interesting paper indeed - Karpenka et al are trying to detect the weak lensing effect on SNe Ia, using a halo model for the line of sight structure. The interesting part is that they infer the parameters of the halo model simultaneously with the cosmological parameters, with the individual convergences playing a fleeting role before being quickly marginalised out. This is the Right Thing To Do - very computationally intensive, but feasible, as they show!
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    Although, to qualify that comment about computational intensity: they do not include scatter in their assumed scaling relation between halo mass and galaxy luminosity. To do that properly needs a whole slew of additional parameters, one for the true mass of every galaxy in sight...
Phil Marshall

Strong Gravitational Lens Statistics using the Herschel-ATLAS - 1 views

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    Short et al (2012) revisit lens statistics: "The complete Herschel-ATLAS data set should be sufficient to yield competitive constraints on \Omega_\Lambda." By complete set they mean 1000 lenses, and the constraints they derive are +/-0.01 in Omega_Lambda. How optimistic are their strong assumptions about what is known about the sources, lenses, selection function and the rest of cosmology? They do conclude that the sample "will be most powerful in constraining uncertainty in astrophysical processes," but the cosmology opportunity is clearly worth keeping an eye on. It'd be good to see the systematics parameterised and marginalised over.
Phil Marshall

The rates and time-delay distribution of multiply imaged supernovae behind lensing clus... - 3 views

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    Li, Hjorth & Richard quantify the unlikelihood of seeing a multiply-imaged supernova in A1689, and other clusters.
Phil Marshall

The SOAR Gravitational Arc Survey - I: Survey overview and photometric catalogs - 2 views

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    Furlanetto et al selected 50-odd clusters in SDSS stripe 82 by richness, in two redshift bins, and then re-imaged in g, r and i at SOAR. Image quality is comparable to median LSST, but depth is only 22-23mag. Interesting sample for algorithm validation, but they are also interested in arc statistics
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