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A possible dipole in the laws of physics: How ALMA can help John Webb, School of Physics, University of New South Wales, Australia UNSW team: Matthew Bainbridge.

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Presentation on theme: "A possible dipole in the laws of physics: How ALMA can help John Webb, School of Physics, University of New South Wales, Australia UNSW team: Matthew Bainbridge."— Presentation transcript:

1 A possible dipole in the laws of physics: How ALMA can help John Webb, School of Physics, University of New South Wales, Australia UNSW team: Matthew Bainbridge Julian Berengut Steve Curran Victor Flambaum Julian King Elliott Koch Anant Tanna Mike Wilcynzska John Webb Angus Wright Elsewhere: Bob Carswell (Cambridge) Michael Murphy (Swinburne) Wim Ubachs (Amsterdam)

2 Motivation: relies entirely on him This: plus this Let’s check the basic assumptions to the best of our ability

3 Is the cosmological principle right, or just a very good approximation?

4 To Earth CIV SiIVCIISiII Ly  em Ly  forest Lyman limit Ly  NV em SiIV em CIV em Ly  em Ly  SiII quasar Quasars: physics laboratories in the early universe

5 Exaggerated illustration of how transitions shift in different directions by different amounts – unique pattern First calculated, relativisitic Hartree-Fock, 1999. Typicallly ~100<Q<1500

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8 α 1999-2004, HIRES/Keck Δα/α (10 -5 ) Previous largest sample of quasar absorber constraints on Δα/α, Murphy et al (2004), from Keck/HIRES Δα/α = ( -0.57 ± 0.11 ) x 10 -5 Obvious question: what would a different telescope find?

9 α 2011: Comparing new UVES/VLT data with Keck VLT + Keck Keck VLT Keck VLT

10 Different patterns in different directions Looking “South” Looking “North” Looks pretty shifty…

11 4.1σ departure from α=constant (variable) Δα/α = c + A cos(θ)

12 Keck & VLT dipoles independently agree, p=4% VLTKeckCombined

13 Low and high redshift cuts are consistent in direction. Effect is larger at high redshift. z > 1.6z < 1.6Combined

14 Distance dependence ∆α/α vs BrcosΘ for the model ∆α/α=BrcosΘ+m showing the gradient in α along the best-fit dipole. The best- fit direction is at right ascension 17.4 ± 0.6 hours, declination −62 ± 6 degrees, for which B = (1.1 ± 0.2) × 10 −6 GLyr −1 and m = (−1.9 ± 0.8) × 10−6. This dipole+monopole model is statistically preferred over a monopole-only model also at the 4.1σ level. A cosmology with parameters (H 0, Ω M, Ω Λ ) = (70.5, 0.2736, 0.726).

15 Are a few high S/N outliers responsible for the signal, by chance? Alternative to growing error bars Robustness check – iterative trimming Adopt statistical-only errors and iteratively clip most deviant point How much data do we need to discard to remove the dipole?     reached when ~10% clipped Dipole significance ~5.5  at      Dipole significance stays above 3  until ~60% of data discarded

16 Hints that this result might be real Two internal consistencies: 1Keck and VLT dipoles agree. Independent samples, different data reduction procedures, different instruments and telescopes. 2High and low redshift dipoles also agree - different species used at low and high redshift – and different transitions respond differently to the same change in  Other suggestive points: 3Scatter in data exceeds statistical-only error bars (expected). Keeping all points and growing errors is conservative. Trimming increases significance and shows signal is present in the majority or all of the data. 4Monopole. Predominant in Keck. Mg isotopes? Early enrichment by very massive stars?

17 How can ALMA help? High-z sub-mm galaxies Radio lines very sensitive to e.g. Strong CI and CO and other lines Select gravitationally lensed objects and pick out individual massive molecular cores Minimise radiative transfer effects, line offsets (carbon isotopes?) Statistical sample to randomise residual species offsets


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