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Huey-Wen Lin — Workshop1 Semileptonic Hyperon Decays in Full QCD Huey-Wen Lin in collaboration with Kostas Orginos.

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Presentation on theme: "Huey-Wen Lin — Workshop1 Semileptonic Hyperon Decays in Full QCD Huey-Wen Lin in collaboration with Kostas Orginos."— Presentation transcript:

1 Huey-Wen Lin — DWF@10 Workshop1 Semileptonic Hyperon Decays in Full QCD Huey-Wen Lin in collaboration with Kostas Orginos

2 Huey-Wen Lin — DWF@10 Workshop2 Outline Motivation/Background Quick Review of Lattice Calculations Lattice Techniques/Parameters Numerical Results Summary and Outlook

3 Huey-Wen Lin — DWF@10 Workshop3 Semileptonic Decays and CKM Matrix 1963: Cabibbo proposes current theory to explain semileptonic decays. 1973: Kobayashi and Maskawa add mixing of three generations of quarks: before the discovery of the b quark. Cabibbo angle in CKM matrix:

4 Huey-Wen Lin — DWF@10 Workshop4 |V us | in CKM Matrix Unitarity constraint: PDG 2006 gives Well determined Very small Less known Experimentally, Hyperon decay Leptonic decay ratios: Hadronic τ decays:

5 Huey-Wen Lin — DWF@10 Workshop5 Lattice Calculation of |V us | — Meson Calculate matrix element Lorentz invariance with Calculate the scalar form factor Extrapolate to q = 0 point in dipole Obtain |V us | from

6 Huey-Wen Lin — DWF@10 Workshop6 Lattice Calculation of |V us | — Meson Multiple K l3 decay calculations: Twisted-BC approach Guadagnoli et. al. (2004) momentum changes by Tune θ j to cancel out the mass difference. No extrapolation in momentum is needed!

7 Huey-Wen Lin — DWF@10 Workshop7 Baryon Matrix Elements Matrix element of hyperon β decay process with The decay rate is

8 Huey-Wen Lin — DWF@10 Workshop8 Baryon Matrix Elements Matrix element of hyperon β decay process with The vector form factor f 1 (0) links to |V us | More than just an alternative way to get |V us |! g 1 (0)/f 1 (0) gives information about strangeness content. g 2 (0) and f 3 (0) vanish in the SU(3) limit → Symmetry- breaking measure

9 Huey-Wen Lin — DWF@10 Workshop9 Hyperon Experiments Experiments: CERN WA2, Fermilab E715, BNL AGS, Fermilab KTeV, CERN NA48 Summary Ξ measurements are still active!

10 Huey-Wen Lin — DWF@10 Workshop10 * Pion mass > 700 MeV * f 1 (0) = −0.988(29) stat. * |V us | = 0.230(8) Guadagnoli et al. * Pion mass ≈ 530–650 MeV * f 1 (0) = −0.953(24) stat * |V us | = 0.219(27) Sasaki et al. Lattice Calculation of |V us | — Baryon Two quenched calculations, different channels

11 Huey-Wen Lin — DWF@10 Workshop11 Lattice Actions (Improved) Staggered fermions (asqtad): Relatively cheap for dynamical fermions (good) Mixing among parities and flavors or tastes Baryonic operators a nightmare — not suitable Chiral fermions (e.g., Domain-Wall/Overlap): Automatically O(a) improved, suitable for spin physics and weak matrix elements Expensive

12 Huey-Wen Lin — DWF@10 Workshop12 Lattice Actions (Improved) Staggered fermions (asqtad): Relatively cheap for dynamical fermions (good) Mixing among parities and flavors or tastes Baryonic operators a nightmare — not suitable Chiral fermions (e.g., Domain-Wall/Overlap): Automatically O(a) improved, suitable for spin physics and weak matrix elements Expensive Mixed actions: Match the sea Goldstone pion mass to the DWF pion Pion masses as low as 260 MeV Volume: 2.6–3.5 fm Free light quark propagators

13 Huey-Wen Lin — DWF@10 Workshop13 Parameters This calculation: Pion mass range: 360 – 700 MeV Strange-strange Goldstone fixed at 763(2) MeV Volume fixed at 2.6 fm a ≈ 0.125 fm, L s = 16, M 5 = 1.7 HYP-smeared gauge, box size of 20 3 ×32

14 Huey-Wen Lin — DWF@10 Workshop14 Effective Mass Plots The worst set The best set

15 Huey-Wen Lin — DWF@10 Workshop15 Octet Spectrum Summary

16 Huey-Wen Lin — DWF@10 Workshop16 Octet Spectrum Summary and extrapolation

17 Huey-Wen Lin — DWF@10 Workshop17 Octet Spectrum Summary and extrapolation Disappointed 

18 Huey-Wen Lin — DWF@10 Workshop18 Octet Spectrum Alternative extrapolations Better agreement with experiments

19 Huey-Wen Lin — DWF@10 Workshop19 Constructions Two–point function Three–point function

20 Huey-Wen Lin — DWF@10 Workshop20 Constructions Two–point function Three–point function Ratio cancels out t and Z dependence

21 Huey-Wen Lin — DWF@10 Workshop21 Constructions Two–point function Three–point function Ratio cancels out t and Z dependence

22 Huey-Wen Lin — DWF@10 Workshop22 Solve for From factors Redefine matrix element as Use “mixed” projection operator Solve the following:

23 Huey-Wen Lin — DWF@10 Workshop23 Solve for From factors Redefine matrix element as Use “mixed” projection operator Solve the following:

24 Huey-Wen Lin — DWF@10 Workshop24 Three-Point Plateau m π = 358(2) MeV

25 Huey-Wen Lin — DWF@10 Workshop25 Three-Point Plateau m π = 358(2) MeV m π = 503(2) MeV m π = 599(2) MeV m π = 689(2) MeV

26 Huey-Wen Lin — DWF@10 Workshop26 Momentum Extrapolation Fit to the dipole form

27 Huey-Wen Lin — DWF@10 Workshop27 Momentum Extrapolation Fit to the dipole form

28 Huey-Wen Lin — DWF@10 Workshop28 Ademollo-Gatto Theorem Symmetry-breaking Hamiltonian Long story short, There is no first order correction O(H′ ) to f 1 (0); thus

29 Huey-Wen Lin — DWF@10 Workshop29 Ademollo-Gatto Theorem Symmetry-breaking Hamiltonian The theorem tells us that There is no first order correction O(H′ ) to f 1 (0); thus Choices of observable for H ’ : m K 2 – m π 2 (m Σ – m N )/ m Σ Others …

30 Huey-Wen Lin — DWF@10 Workshop30 Mass Dependence — I What has been done in the past… Guadagnoli et al. construct an AG ratio and extrapolate mass dependence as

31 Huey-Wen Lin — DWF@10 Workshop31 Mass Dependence — II Use to describe the SU(3) symmetry breaking f 1 (0) = 0.90(7) (Preliminary)

32 Huey-Wen Lin — DWF@10 Workshop32 Axial Coupling Constants: g ΞΞ and g ΣΣ Cannot be determined by exp. Existing predictions from χPT and large N c calculations Applications such as hyperon scattering, non-leptonic decays, etc.

33 Huey-Wen Lin — DWF@10 Workshop33 Summary/Outlook First non-quenched calculation of hyperon semileptonic decays Lighter pion masses as low as 350 MeV Preliminary results show |V us | (from Σ → n) * Consistent with the previous lattice measurement * Larger error due to lighter pion mass * More statistics needed for lightest point! In the near future: Finish the semileptonic form factor analysis, including Ξ → Σ channel Σ and Ξ structure-function form factors Possibly take Λ → p data, if time allows

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