From Supernovae to Baryon Acoustic Oscillations

1. From Supernovae to Baryon Acoustic Oscillations Patrice OKOUMA Supervisor : Prof. Bruce A. BASSETT UCT Dec. 2008 SKA Postgraduate Bursary Conference

2. Overview Theoretical Work Observational Work Data Analysis Type-Ia Supernovae Adiabatic & Isocurvature modes on BAO SALT MeerKAT /SKA

3. Silicon Line A reminder A Type-Ia Supernovae (SNe Ia) -------> Explosion of a White Dwarf having accreted mass from a companion star, beyond a critical threshold known as the Chandrasekhar limit (~ 1.4 Solar masses). Folatelli (2004)‏

4. Krisciunas et al., 2005 SNe Ia as standardizable candle

5. A past work • Spectral characterization of Type-Ia supernovae via chi-squared based techniques and cross- correlation approach (SNID by Blondin et al. 2006) • ------------> M.Sc.

6. chi-squared approach cross-correlation approach (SNID code)‏

7. 2-week campaign for Infra red light curves of Sne Ia (IRSF, Sutherland, SA)‏ Work with Ariel Goobar & al. (Sweden)‏ Extinctions corrections for optical observations -----> Major uncertainty in using SNe Ia for cosmology

8. In NIR, SNe-Ia are still standardizable candles ( Krisciunas et al., 2005 )‏ • Smaller extinction corrections • Strong evidence for a weaker lightcurve width-brightness • correction Lower error budget Better constraints on the Cosmology

9. 2-week campaign for optical spectra of Sne (1.9-m telescope, Sutherland, SA)‏ Work with . Y. Fang & al. (Michigan,US); A. Goobar et al. (Sweden)‏ Goals : Training; Testing simultaneous identification of transients from ROTSE (http://www.rotse.net/), in Gamsberg (southern Namibia).

10. Theoretical Work Observational Work Data Analysis Supernovae Adiabatic & Isocurvature modes on BAO SALT MeerKAT / SKA

12. The Early Universe through Baryon Acoustic Oscillations Work with K. Moodley et al. (UKZN,SA) & C. Zunckel (Princeton, US)‏ Number density and/or energy density characterize cosmological species in the early Universe. Linear perturbations of these quantities are THEN METRIC perturbations Eqs. for evolution of perturbations

13. S. White (2008)‏ Adiabatic modes are perturbations affecting cosmological species such that : Isocurvature modes : CMB (for flat Universe) ===> Adiabatic modes are dominant BUT ~ 10% Isocurvature modes are allowed (in early Universe).

14. Therefore, If we assume Adiabatic fluctuations, what do we get wrong about Dark Energy ... and ... by how much ? Baryon Acoustic Oscillations (B.A.O) = Pathfinder Initial fluctuations in density and gravitational potential drive acoustic waves in the fluid: compressions and rarefactions. At early times the universe was hot, dense and ionized. Photons and matter were tightly coupled by Thomson scattering.

15. An (adiab.) evolution in a spherically symmetric shell of plasma ‏

16. Another prediction verified !!! Eisenstein et al. (2005)‏ detect the theorized “bump” in the 2-point correlation function of the SDSS -LRG at z ~ 0.35

17. Possible effects of Isocurvature modes r0 From CMB

18. (classical) Program Simulation √ Control with data Theory/Model Feedback

19. Simulations using CAMB (code )‏ Mixture Cross-correlation Pk = -1 : anti-correlation = 1 : full correlation Correlation coeff. else : partial correlation

20. Divide both

21. Totally correlated

22. Partially correlated

23. Zoom

24. Immediate perspective Strong “degeneracy” with Dark Energy via BAO

25. Perspective (cont'd)‏ : Fisher formalism on Pk Seo & Eisenstein (2007) approach <--

26. Future work & preliminary conclusion Applicability and scalability to MeerKAT / SKA … F. Combes (2006)‏ MeerKat TBD 15-20 000 ~ 1 Million Ongoing • BAO are a rapidly maturing method • for investigating Dark Energy -----> Huge collaboration opportunities. • Highly robust method. • Complimentary to Supernova cosmology

27. THANK YOU