ATLAS Preliminary W,Z H bb H s = 7 TeV: Ldt = 4.6 fb s = 8 TeV: Ldt = 13 fb (*) H WW s = 8 TeV: Ldt = 13 fb s = 7 TeV: Ldt = 4.7 fb s = 8 TeV: Ldt = 13 fb ll m H = 126 GeV H s = 7 TeV: Ldt = 4.8 fb s = 8 TeV: Ldt = 5.9 fb (*) H ZZ 4l s = 7 TeV: Ldt = 4.8 fb s = 8 TeV: Ldt = 5.8 fb Combined s = 7 TeV: Ldt = 4.6-4.8 fb s = 8 TeV: Ldt = 5.8-13 fb µ = 1.3 ± 0.3 0 +1 Signal strength (µ)
ATLAS Preliminary W,Z H bb H s = 7 TeV: Ldt = 4.6 fb s = 8 TeV: Ldt = 13 fb (*) H WW s = 8 TeV: Ldt = 13 fb s = 7 TeV: Ldt = 4.7 fb s = 8 TeV: Ldt = 13 fb ll m H = 126 GeV H s = 7 TeV: Ldt = 4.8 fb s = 8 TeV: Ldt = 5.9 fb (*) H ZZ 4l s = 7 TeV: Ldt = 4.8 fb s = 8 TeV: Ldt = 5.8 fb Combined s = 7 TeV: Ldt = 4.6-4.8 fb s = 8 TeV: Ldt = 5.8-13 fb µ = 1.3 ± 0.3 0 +1 Signal strength (µ)
q χ L, q L χ =0 ql χ L 0 Σ m M q χ m t tt + m T T T m χ L q + M χ L χ (m<m) m 2 t m2 M 2 Σ2,m 2 T M 2 m t < Σ
fπ 2 = 3Σ2 8π Λ2 ln 2 Σ 2 m h =2Σ (GE : m h 2 Σ) f π = 246/ 2(GeV), Λ O(1 10TeV) Σ 400 600GeV m h 0.8 1.2TeV
field SU(3) 1 SU(3) 2 SU(2) L U(1) Y Q (3) L 3 1 2 1/6 U (3),D(3) 1 3 1 (2/3, /3) U (4) L,D(4) U (4) L 1 3 1 (2/3, /3),D(4) 3 1 1 (2/3,/3) Q (1,2) 1 3 SM SM SU(3) 1 SU(3) 2 SU(3) c
@ Λ L Λ = G D(4) b Q(3) L 2 (4) + Gt Ū Q(3) L Φ (0) 1 L Λ = M (0)2 b Φ (0) 1 2 M (0)2 M (0)2 tb t Φ (0) 2 2 Φ (0) 1 Φ (0) 2 + h.c. Q(3) L Φ(0) 1 D(4) 2 + Gtb Q(3) L U (4) + Q (3) L Φ (0) 2 U (4) D(4)c (4) D Q(3) L +h.c., Φ(0) iτ 2Q (3)c L 2 Ū (4) G tb =0 M (0)2 tb =0 Q(3) L
L kin + L µ<λ L Λ L µ<λ = y 1 Q(3) L Φ 1D (4) + y 2 +M 2 11 Φ 1 2 + M 2 22 Φ 2 2 M 2 12 (3) Q Φ L 2 U (4) +h.c. Φ 1 Φ 2 +h.c. 1 2 λ 1(Φ 1 Φ 1) 2 1 2 λ 2(Φ 2 Φ 2) 2 λ 3 (Φ 1 Φ 1)(Φ 2 Φ 2) λ 4 (Φ 1 Φ 2)(Φ 2 Φ 1) y 2 y 2 (Λ) =, λ y 4 λ(λ) y 4 (Λ) =0
TC + Ū (4) Q(3) L + D (4) Q(3) L =0 =0 =0 β, φ tan β v 2 v 1, v EW φ v1 2 + v2 2 v 2 EW = v 2 TC + v 2 2 + v 2 1 v TC
Σ t >m t [TSS] = (1 t )m t Σt(GeV) 300 200 100 80 (3, 3) Ū (3) L (0.5, 3) (tan φ, tan β) = (1, 3) (1, 0.5) 5 10 50 100 Λ(TeV) Σ t = m t [TSS] = 1 2 m t Ū (4) L (Λ, tan φ, tan β) 0 Σ t M 34 M 44 U (3) U (4)
M coloron Λ = 50TeV 1000 mh,h(gev) MTSS,0 2 = M12/(sin 2 β cos β) M A1 : m H 500 (0.5, 3) (1, 3) 200 (1, 0.5) m h 126 100 (3, 3) 60 60 100 200 300 500 1000 M TSS,0 M A1 (GeV)
mh,h(gev) 1000 m H = 126 GeV m H ± 1 500 (0.5, 3) (1, 3) 200 (1, 0.5) m h 126 100 (3, 3) 60 60 100 200 300 500 1000 M TSS,0 (GeV) m H 126 GeV is disfavored by t Π ± t b For M A1 100 GeV For M A1 1000 GeV mx(gev) 2000 1000 500 300 126 M H ± 1 M A1 5 10 50 100 Λ(TeV) 2000 1000 5 10 50 100 Λ(TeV) mx(gev) 500 200 126 M H ± 1 M A1
mh,h(gev) tan φ = tan β =3 M TSS,0 M A1 1TeV 1000 500 (0.5, 3) (1, 3) 200 (1, 0.5) m h 126 100 (3, 3) 60 60 100 200 300 500 1000 M TSS,0 (GeV) m H
σ ggf + VBF + VH [TSSTC] σ ggf + VBF + VH [SM] 2 2.5 σ ggf [TSSTC] σ ggf [SM] 2.3 2.8 t in triangle T in triangle (y 2 /y SM t ) 2 c t L 1 s t 0.9 cos α 0.9 2 2.6 y 2 2mT /v EW s t L ct cos α 2 1
µ ττ =0 2 µ X 1 µ VH bb 0.1 µ VV 1 1.5 (for b 0.8 0.9) m b [TSS] = (1 b )m b ATLAS, γγ (ICHEP) CMS, γγ (ICHEP) CMS, ZZ (ICHEP) 0 µ γγ 0 0.2 0.4 0.6 0.8 1 b ATLAS, ZZ (ICHEP) ATLAS, WW (ICHEP)
L hρρ = C hρρ (gm W ) hρ +µ ρ µ µx(chρρ =0.4) 2 1 0 Γ(h γγ) = α2 g 2 1024π 3 ATLAS, γγ (ICHEP) CMS, γγ (ICHEP) ATLAS, ZZ (ICHEP) ATLAS, WW (ICHEP) CMS, ZZ (ICHEP) 0.2 0.4 0.6 0.8 1 b For M ρ m h = 126GeV, A 1 7 2 4M 2 C hw W A W 4M 2 ρ 1 m 2 + C hρρ A 1 h m 2 + h m 3 h M 2 W
mh,h(gev) tan φ = tan β =3 M TSS,0 M A1 1TeV 500 (0.5, 3) (1, 3) 200 (1, 0.5) m h 126 100 (3, 3) 60 60 100 200 300 500 1000 1000 M TSS,0 (GeV) m H µx(chρρ =0.4) 2 1 0 0.2 0.4 0.6 0.8 1 b
M coloron Λ = 50TeV 0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35 S T 5 10 50 100 126 300 500 1000 2000 M H ± 1 M A1 mx(gev) Λ(TeV) 5 10 50 100 126 200 500 1000 2000 M H ± 1 M A1 Λ(TeV) mx(gev) For M A1 100 GeV For M A1 1000 GeV S TC =0 S TC =0 S TC =0.1