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1 Testing New Physics with Unitarity Triangle Fits Achille Stocchi (LAL/Orsay) SUSY 2005 (The Millenium Window to Particle Physics) Durham 18-23 July 2005
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2 Members : M. Bona, M. Ciuchini, E. Franco, V. Lubicz, G. Martinelli, F. Parodi, M. Pierini, P. Roudeau, C. Schiavi, L. Silvestrini, A. Stocchi, V.Vagnoni Collaboration http://www.utfit.org Results based on the work from M. Bona et al. (UTfits Coll.) JHEP07(2005) 028 hep-ph/0501199 M. Bona et al. (UTfits Coll.) paper in preparation
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3 B +other charmonium radiative decays X s ,X d , X s ll B DK +from Penguins theo. clean The Unitarity Triangle: Charm Physics (Dalitz) ?
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4 -sin(2β)A CP (J/ψ,K S ) ξ(1– ) 2 + 2 m d / m s f B B B (1– ) 2 + 2 mdmd BKBK [(1– ) + P] KK, λ 1,F(1),… 2 + 2 (b u)/(b c) ρη η ρ ρ η ρη Λ 2 UTFit within the SM
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5 ρ = 0.190 ± 0.044 η = 0.349 ± 0.024 UTFit within the SM
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6 Coherent picture of CP Violation in SM from sides-only Crucial Test of the SM in the quarks sector determination of CP violating parameters measuring CP-conserving observables CP-violating observables was/is the strong motivation for the B-Factories B J/ K 0 sin2 0.726 ± 0.037 DONE!! We are probably beyond the era of « alternatives» to the CKM picture. NP should appear as «corrections» to the CKM picture UTFit within the SM
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7 B-Factories has also shown that the other angles can be measured. We are already well beyond the first phase. the first phase. UT with angles only a g cos 2b sin( 2b) sin( 2b+g) UTFit within the SM
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8 All available information together sin(2 ) 0.726 ± 0.028 sin(2 ) -0.29 ± 0.17 [][] 58.1 ± 5.0 0.210 ± 0.035 0.339 ± 0.021 UTFit within the SM
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9 ± (0.21± 0.10) ± (0.36 ± 0.06) If we use only Tree level processes -which can be assumed to be NP free- It is very important to improve V ub /V cb from s.l decays from tree level proceses Fit with NP independent variables (similar plot in Botella et al. hep-ph/0502133)
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10 Parametrizing NP physics in F=2 processes F=2 5 new free parameters C s, s B s mixing C d, d B d mixing C K K mixing Cd,dCd,d CKCK C s, s V ub /V cb XX mdmd XX KK XX ACP J XX XX D X msms X ACP J ~XX D s K) XX Today : fit possible with 6 contraints and 5 free parameters ( C d, d,C K ) Constraints Fit in a NP model independent approach Not yet available
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11 Fit in a NP model independent approach SM-like CdCd cos2( )sin2( )sin(2 ) A SL SM-LIKE60 o 10.68-0.230.96OK NP160 o 1-0.680.96-0.23OK NP2120 o 0.40.68-0.23-0.9610 -2 NP3120 o 0.4-0.680.960.230K V ub /V cb D mdmd ACP J KK Using
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12 V ub /V cb D mdmd ACP J KK Using cos2 A SL SM-like solution 93% NP solution 7% Fit in a NP model independent approach
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13 NP in B=2 and S=2 could be up to 50% wrt SM only if has the same phase of the SM C Bd = 1.25± 0.45 Bd = (0.1 ± 3.1) o C = 1.07 ± 0.25 Taking as maximal effect 2 ( Bd ) ~6 o for the new phase ( Bd ) NP can only contribute at 10% Fit in a NP model independent approach
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14 MFV New CP in b s - F=1 Penguins transitions - The B s physics (LHCb) - Improvements existing measurements - Rare decays (not discussed in this talk) What to do ? TWO POSSIBLE SCENARIOS MFV
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15 MFV = no additional flavour mixing Only mixing processes are sensitive to NP For UUT we do not use K and m d in the fit U niversal U nitarity T riangle : generalised SM analysis and MFV Almost as good as the SM !! η = 0.353 ± 0.028 from UUT fit ρ = 0.191 ± 0.046 from UUT fit MFV Starting point for studies of rare decays see : Bobeth et al. hep-ph/0505110
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16 0.29 0.44 [-1.05,0.81]@95% In models with one Higgs doublet or low/moderate tan (D’Ambrosio et al. hep-ph/0207036) NP enters as additional contribution in top box diagram Already now, in some specific Model we start to explore interesting NP scale 0 is the equivalent SM scale MFV
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17 2Higgs + large tan also bottom Yukawa coupling must be considered MFV
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18 All modes (except ’K s ) are less than 1.5 away from sin(2 ) from J/ K s b s transitions ( F=1)
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20 CKM Matrix in ≤2010-where we will be We have supposed that - B Factories will collect 2ab -1 - two years data taking at LHCb ( 4fb -1 ) < 1° from charmonium ~ 7 ° ~ 5° (half B-factories/half LHCb) V ub ~ 5% V cb ~ 1% m s at 0.3ps -1 (Tevatron or/and LHCb) f B B B ~ 5% ~ 3% B K ~ 5% Inputs sin(2 ) 0.694 ± 0.012 sin(2 ) -0.543 ± 0.093 51.7 ± 3.0 0.240 ± 0.017 0.307 ± 0.010 Outputs sin2 ± 0.045 CKM2010
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21 0.26 0.44 In MFV Now 2010 CKM2010
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22 φ Bd = (-0.1 ± 1.3) o C Bd = 0.98 ± 0.14φ Bs = (0.0 ± 1.3) o C Bs = 0.99 ± 0.12 in 2010 : same and impressive precision on b d and b s transitions In the « sad » hypotesis the SM still work in 2010…. CKM2010
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23 Conclusions UTfits are in a mature age with recent precise measurement of UT sides and angles Ready to precisely test SM and NP Strong indication in favour of MFV NP effects still possible in b s transitions ( m s, ACP(J , F=1….) Bd ~ 0
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24 New inputs are coming for EPS05 and situation is slightly different…. Results of yesterday night…. Stay tuned ! LAST MINUT V ub /V cb sin2 Still possible surprises improving the existing measurements
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25 C Bd = 1.10 ± 0.48 φ Bd = (-4.6 ± 2.6) o Results of yesterday night…. Stay tuned ! Discrepancy 1.5
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