Understanding the Cosmic Acceleration using KDUST

1. Understanding the Cosmic Acceleration using KDUST Gong-Bo Zhao ICG, Portsmouth 1106.3327 (PRL submitted) 1105.0922 (PRL 11) 1011.1257(PRD 11) 1005.3810 (PASP 11) 0905.1326 (PRL 09)

2. My main collaborators Robert Crittenden (Portsmouth), Zuhui Fan (PKU) Aireza Hojjati (SFU), Kazuya Koyama (Portsmouth) Baojiu Li (Durham, Cambridge),Yinzhe Ma (UBC, Cambridge)Jeremiah Ostriker (Princeton, Cambridge), Levon Pogosian (SFU) Alessandra Silvestri (MIT), Lifan Wang (TAMU), Hu Zhan (NAOC) Xinmin Zhang (IHEP) KDUST workshop, IHEP, Beijing

3. Nobel Prize, 2011 KDUST workshop, IHEP, Beijing

4. Cosmic Acceleration MG DE KDUST workshop, IHEP, Beijing

5. KDUST Weak Lensing Galaxy Counts ISW KDUST workshop, IHEP, Beijing

6. KDUST is useful for DE KDUST workshop, IHEP, Beijing

7. KDUST Site Performance credit: Hu Zhan LSST 15000 sq. deg. Ugrizy GBZ, H.Zhan, L. Wang, Z. Fan, X.Zhang, 1005.3810, PASP 11 15000 sq. deg.: n(z) ~ z2exp(-z/0.5) Photo-z rms: sz=0.04(1+z) Photo-z bias prior: sP(dz)=0.2sz Shear calibration error: ±0.003 Residual shear power: 6×10-10 KDUST workshop, IHEP, Beijing

8. KDUST—LSST Synergy credit: Hu Zhan KDUST JH + LSST ugrizy 5000 sq. deg.: n(z) ~ z2exp(-z/0.6) Photo-z rms: sz=0.03(1+z) Photo-z bias prior: sP(dz)=0.2sz Shear calibration error: ±0.002 Residual shear power: 4×10-10 15000 sq. deg.: n(z) ~ z2exp(-z/0.5) Photo-z rms: sz=0.04(1+z) Photo-z bias prior: sP(dz)=0.2sz Shear calibration error: ±0.003 Residual shear power: 6×10-10 KDUST workshop, IHEP, Beijing

9. KDUST—LSST Synergy credit: Hu Zhan KDUST JH + LSST ugrizy 10000 sq. deg.: n(z) ~ z2exp(-z/0.6) Photo-z rms: sz=0.03(1+z) Photo-z bias prior: sP(dz)=0.2sz Shear calibration error: ±0.002 Residual shear power: 4×10-10 10000 sq. deg.: n(z) ~ z2exp(-z/0.5) Photo-z rms: sz=0.04(1+z) Photo-z bias prior: sP(dz)=0.2sz Shear calibration error: ±0.003 Residual shear power: 6×10-10 KDUST workshop, IHEP, Beijing

10. KDUST—LSST Synergy credit: Hu Zhan KDUST JH + LSST ugrizy 5000 sq. deg.: n(z) ~ z2exp(-z/0.6) Photo-z rms: sz=0.03(1+z) Photo-z bias prior: sP(dz)=0.2sz Shear calibration error: ±0.002 Residual shear power: 4×10-10 15000 sq. deg.: n(z) ~ z2exp(-z/0.5) Photo-z rms: sz=0.04(1+z) Photo-z bias prior: sP(dz)=0.2sz Shear calibration error: ±0.003 Residual shear power: 6×10-10 SNe:(z < 1.5) KDUST workshop, IHEP, Beijing

11. Reconstructing w(a) precisely R.Crittenden, GBZ, L.Pogosian, L.Samushia, X.Zhang To appear soon see Levon’s talk Straightforward to apply to KDUST data! KDUST workshop, IHEP, Beijing

12. KDUST is useful for MG KDUST workshop, IHEP, Beijing

13. On linear scale • PCA (see Levon’s talk) • Cosmic Mach Number KDUST workshop, IHEP, Beijing

14. Cosmic Mach Number: A robust tool to test Einstein Gravity arXiv: 1106.3327 with Yinzhe Ma (UBC, Cambridge) Jeremiah Ostriker (Princeton and Cambridge)

15. What is Mach Number?? KDUST workshop, IHEP, Beijing

16. Cosmic Mach Number (CMN) Ostriker & Suto 1990 KDUST workshop, IHEP, Beijing

17. The shape of velocity power spectrum can be reconstructed from CMN KDUST workshop, IHEP, Beijing

18. CMN data KDUST workshop, IHEP, Beijing

19. Cosmological applications KDUST workshop, IHEP, Beijing

20. WMAP7 + UNION2 +CMN (6dF) KDUST workshop, IHEP, Beijing

21. Power of CMN • B0<0.4 (95% CL, CMB+SN) • B0<5x10-5(95% CL, CMB+SN+CMN) KDUST workshop, IHEP, Beijing

22. CMN is a promising tool • Immune to galaxy bias, overall amplitude, nonlinearities • Highly sensitive to the scale-dependence of the growth, thus an ideal tool to constrain MG parameters and neutrino mass • Complimentary to weak lensing • Measure CMN from KDUST?? KDUST workshop, IHEP, Beijing

23. On Non-linear scale • Environmental dependence of dark matter halos KDUST workshop, IHEP, Beijing

24. f(R) Gravity Mimic GR at high z; Recover GR locally to pass solar system test. Accelerate the expansion at low z; KDUST workshop, IHEP, Beijing

25. In GR KDUST workshop, IHEP, Beijing

26. In f(R) lC KDUST workshop, IHEP, Beijing

27. In very dense regions lC KDUST workshop, IHEP, Beijing

28. 12 billion years ago

29. 10 billion years ago

30. 8 billion years ago

31. Now

32. Numerical Simulations 1011.1257 GBZ, B.Li, K.Koyama, PRD 11 • Code: Modified MLAPM • f(R) model: • Model parameters: • Cosmological parameters: WMAP7 KDUST workshop, IHEP, Beijing

33. Equations to solve in the code KDUST workshop, IHEP, Beijing

34. Get some sense… KDUST workshop, IHEP, Beijing

35. GR KDUST workshop, IHEP, Beijing

36. f(R) KDUST workshop, IHEP, Beijing

37. Structure formation in GR KDUST workshop, IHEP, Beijing

38. Structure formation in f(R) KDUST workshop, IHEP, Beijing

39. Dynamical Mass KDUST workshop, IHEP, Beijing

40. Dynamical Mass KDUST workshop, IHEP, Beijing

41. Dynamical Mass Spherical symmetry KDUST workshop, IHEP, Beijing

42. Lensing Mass KDUST workshop, IHEP, Beijing

43. Lensing Mass KDUST workshop, IHEP, Beijing

44. Lensing Mass Spherical symmetry KDUST workshop, IHEP, Beijing

45. Mass Difference KDUST workshop, IHEP, Beijing

46. KDUST workshop, IHEP, Beijing

47. In underdense environment KDUST workshop, IHEP, Beijing

48. In underdense environment KDUST workshop, IHEP, Beijing

49. KDUST workshop, IHEP, Beijing

50. In dense environment KDUST workshop, IHEP, Beijing