Hints for Low Supersymmetry Scale from Analysis of Running Couplings Dimitri Bourilkov University of Florida DPF06, October 31, 2006, Waikiki, HI, USA
Introduction What happens at (much) higher scales? 3 separate couplings at the Z peak … D.Bourilkov DPF06
Motivation I If SUSY is discovered, phenomena arising from the quantum structure of space-time can be studied experimentally By 1991 the weak coupling was measured with much higher precision than the strong one at LEP In a famous paper U.Amaldi et al. (PL B260 (1991) 447) showed that in contrast to the SM the MSSM leads to a single unification scale MSUSY = 103.0±1.0 GeV MGUT = 1016.0±0.3 GeV 1/GUT = 25.7 ± 1.7 so for the SUSY scale: 11 < MSUSY < 91200 GeV At the time the relative error in (MZ), sin2MS and s(MZ) was 0.24 %, 0.77 % and 4.6 % D.Bourilkov DPF06
Motivation II From RPP 2004/6 the relative error in (MZ), sin2MS and s(MZ) is 0.014%, 0.065% and 1.0%, so we have improved by more than an order of magnitude except for the strong coupling (less than 5 times) So new analyses are in order (here we expand the analysis from hep-ph/0410350 , hep-ph/0602168) Some recent analyses: W. de Boer, C.Sander, hep-ph/0307049 B.Allanach et al., hep-ph/0407067 N.Arkani-Hamed, S.Dimopoulos, hep-th/0405159 Example of a fit with MSUSY = MTOP D.Bourilkov DPF06
Side Remark It is amazing that we are trying to extrapolate from 102 to 1016 GeV From experiments we now that even interpolation or modest extrapolations can be non-trivial We measure the “offsets” around the Z peak and rely on theory to give us the “slopes” of the running couplings – without errors – up to the GUT scale This may be an illusion e.g. extra dimensions could modify the running already at TeV scales, so the “unification” point could be imaginary D.Bourilkov DPF06
Experimental Inputs From Review of Particle Properties 2004 1/(MZ) = 127.918 ± 0.018 sin2MS = 0.23120 ± 0.00015 s(MZ) is a different story (larger statistical errors and theory uncertainties); will use the latest results from RPP 2006 s(MZ) = 0.1170 ± 0.0012 from Lattice QCD s(MZ) = 0.1176 ± 0.002 World Average s(MZ) = 0.1185 ± 0.002 World Average sans Lattice QCD s(MZ) = 0.1187 ± 0.002 RPP2004 QCD section D.Bourilkov DPF06
Analysis technique 2 minimization with 3 parameters: fit with MINUIT MSUSY , MGUT , 1/GUT Strong correlation (> 0.999) between MGUT and 1/GUT : problem can be re-factored with 2 parameters, taking 1/GUT as the weighted average of the 3 couplings at any given scale (results are numerically the same except the error on the GUT coupling) Even so the correlation MSUSY – MGUT is > 0.96 Threshold corrections around the GUT scale (– 4%) for 2-loop-RG running fits D.Bourilkov DPF06
Running Couplings 1-loop Renormalization Group (RG) running – can solve analytically 1/() = 1/() - (bi/2) . ln(/) The coefficients for the 3 couplings are independent and given by the SM or MSSM 2-loop-RG running: additional terms so the 3 couplings depend on each other – solved numerically; the errors depend on the scale (for typical GUT scales they grow by 4, 12 and 6 % for the 3 couplings) D.Bourilkov DPF06
Example of SUSY Fit D.Bourilkov DPF06
Fit Results s(MZ) from MSUSY [GeV] MGUT 1/GUT Lattice QCD threshold correction (-4%) 101.76 ± 0.25 1016.57 ± 0.07 22.8 ± 0.4 Lattice QCD threshold correction (-3%) 102.32 ± 0.18 1016.39 ± 0.05 23.8 ± 0.3 Lattice QCD threshold correction (-5%) 101.26 ± 0.23 1016.74 ± 0.07 21.9 ± 0.4 World Average 101.67 ± 0.38 1016.61 ± 0.12 22.6 ± 0.7 World Average sans Lattice 101.52 ± 0.37 1016.65 ± 0.12 22.3 ± 0.7 D.Bourilkov DPF06
New Analyses - Add More Data LEP2 has measured the qq cross section above Z with combined precision ~ 1% and theoretical uncertainty < 0.3 % (and provides correlations between points) Fit the data with SM or SUSY running couplings (SUSY scale as parameter) 1/(1,2,3) change in SM by -0.9, 1.3, 11.3% from Z -> 201 GeV 1/(1,2,3) will change by -1.2, 0.4, 7.5% e.g. for SUSY scale ~ 130 GeV Slight excess ~ 2 is “filled” nicely by SUSY running MSUSY = 129 +27-23 GeV no correlations: MSUSY = 129 +16-16 GeV D.Bourilkov DPF06
Fit Measurements of s @ LEP2 Measurements are difficult / dominated by systematic uncertainties at LEP2 (we use the L3 final result and LEP combined preliminary – QCD WG) SUSY Fit to L3 data: MSUSY = 137 ± 38 GeV SUSY Fit to LEP data: MSUSY = 172 ± 18 GeV D.Bourilkov DPF06
Fit Measurements of s @ CDF Measurements are difficult / dominated by systematic uncertainties at CDF (energy scale and resolution; interplay with the gluon PDF uncertainty at high X values). SUSY Fit to CDF data: MSUSY = 153 ± 49 GeV D.Bourilkov DPF06
Conclusions The MSSM still provides coupling unification at a GUT scale well below the Planck scale for the newest set of measurements The strong coupling is a key for interpreting the results: “high” values require uncomfortably low SUSY scales ~ 10 GeV – excluded The “low” s(MZ) values favor SUSY scales just around the corner: MSUSY < 197 (148) GeV for World Average ‘06 (Lattice QCD) at one-sided 95 % CL or reversing the argument an attractive “low” SUSY scale favors s(MZ) ~ 0.117 – 0.119 New analyses above the Z peak (sensitive to the actual running of the couplings) produce a remarkably coherent picture: qq data @ LEP2: MSUSY = 129 +27-23 GeV s data @ LEP2: L3: MSUSY = 137 ± 38 GeV LEP: MSUSY = 172 ± 18 GeV s data @ CDF: MSUSY = 153 ± 49 GeV A word of caution: most results are preliminary; there are strong correlations in the s measurements which are not published / not taken into account in the fits The SUSY scales emerging from this analysis are well in the LHC (TEVATRON?) direct discovery range: stay tuned! D.Bourilkov DPF06