Beyond the 3SM generation at the LHC era Workshop

4 Sept 2008, 09:00 → 5 Sept 2008, 19:45 Europe/Zurich

40-S2-D01 (CERN)

George Hou (National Taiwan Univ., Taiwan), Gokhan Unel (U. C. Irvine), Michelangelo Mangano (CERN), Robert Holdom (Univ. Toronto, Canada), Saleh Sultansoy (TOBB Univ. Economic & Technology, Turkey), Tobias Hurth (CERN)

"Beyond the 3SM generation at the LHC era" workshop aims to review the status of the models with additional fermion families. Theory, precision data from b/c factories, astroparticle/cosmology and collider aspects will be reviewed in this 2 day workshop.

agenda agenda.pdf

Thursday 4 September

Opening

Welcome Address by Michelangelo Mangano

Introduction and Motivation

1 The strong case for new flavor physics

Speaker: Prof. Bob Holdom (Univ. Toronto, Canada)

Slides cern.pdf

2 Why the 4SM families - 2008

Speaker: Prof. Saleh Sultansoy (TOBB University of Economics and Technology)

Slides 4th_family_workshop_Saleh.pdf 4th_family_workshop_Saleh.PPT

3 Source of CPV for Baryon Asymmetry of the universe

Speaker: Prof. George Hou (NTU)

Slides CPVfrBAU.pdf CPVfrBAU.ppt

4 Experimental Constraints on fourth generation quark masses

The existing bounds from CDF on the masses of the fourth generation quarks, t' and b', are reexamined. The bound of 256 GeV on the t' mass assumes that the primary decay of the t' is into q+W, which is not the case for a substantial region of parameter space. The bound of 268 GeV on the b' mass assumes that the branching ratio for b' --> b+Z is very large, which is not only not true for much of parameter space, but is {\em never} true for b' masses above 255 GeV. In addition, it is assumed that the heavy quarks decay within the silicon vertex detector, and for small mixing angles this will not be the case. The experimental bounds, including all of these effects, are found as a function of the other heavy quark mass and the mixing angle.

Speaker: Prof. Marc Sher (WMU)

Slides cern1.pdf cern1.ppt

Discussion

12:00 Lunch Break

Direct searches (Tevatron & LHC)

5 b' searches at Tevatron

Speaker: Dr regina demina (university of rochester)

Slides bprime.pdf bprime.ppt

6 Additional quark searches with CDF

Speaker: Dr Alison Lister (UC Davis)

Slides Beyond_3rd_Generation_AlisonLister_new.pdf Beyond_3rd_Generation_AlisonLister_new.ppt

7 4th family searches with ATLAS

We present a study for the search of 4th generation quarks at the LHC

Speaker: Erkcan Ozcan (University College London)

Slides 4thFamWS_080904.pdf

8 b' searches in CMS

Speaker: Yuan Chao (National Taiwan University (NTU))

Slides ychao_20080904.pdf

Discussion

15:00 Coffee Break

Impact on Higgs Searches

9 Aspects of the search for stable new generation particles in LHC

Speaker: Dr Konstantin Belotsky (MEPhI)

Slides belotsky04092008.pdf belotsky04092008.ppt

10 D0 Higgs searches and the 4th family

Speaker: Andy HAAS (Columbia)

Slides D0_Higgs_B3SM_CERN_9-4-08.pdf

11 Fourth SM Family and Higgs at Hadron Colliders

Speaker: Serkant Ali Cetin (Dogus Univ., Istanbul)

Slides B3SM-04Sept2008-SCetin.pdf B3SM-04Sept2008-SCetin.ppt

12 Fourth family and the silver mode of Higgs search

Speaker: Tulay Cuhadar Donszelmann (Department of Physics and Astronomy-University of Sheffield)

Slides tulay-4thfam-workshop-sept4.pdf tulay-4thfam-workshop-sept4.ppt

Discussion

Prospects for future colliders

13 A 4th generation scenario

Speaker: Dr Francois Richard (LAL)

Slides A_4th_generation_scenario.pdf A_4th_generation_scenario.ppt

14 Lepton Colliders & The fourth family

Speaker: Saleh Sultansoy (TOBB University of Economics and Technology)

15 Production of Single Heavy Charged Leptons at a Linear Collider

A sequential fourth generation of quarks and leptons is allowed by precision electroweak constraints if the mass splitting between the heavy quarks is between 50 and 80 GeV. Although heavy quarks can be easily detected at the LHC, it is very difficult to detect a sequential heavy charged lepton, L, due to large backgrounds. Should the L mass be above 250 GeV, it can not be pair-produced at a 500 GeV ILC. We calculate the cross section for the one-loop process e+e- -> L tau. Although the cross section is small, it may be detectable. We also consider contributions from the two Higgs doublet model and the Randall-Sundrum model, in which case the cross section can be substantially higher.

Speaker: Prof. Marc Sher (WMU)

Slides cern.pdf cern.ppt

Discussion

Friday 5 September

Other LHC aspects

16 A holographic fourth generation: signals at the LHC

I present a model with four generations of standard model fermions propagating in a five-dimensional AdS metric. I show that it is possible to break the electroweak symmetry via the condensation of the fourth generation, driven by their interactions with the Kaluza-Klein gauge bosons and by the presence of bulk higher-dimensional operators. This dynamical mechanism results in a heavy composite Higgs, which is highly localized towards the infrared boundary. The localization of the fermions in the five-dimensional bulk naturally leads to the standard model Yukawa couplings via the action of the bulk higher-dimensional operators. I show the spectrum of the model and discuss the electroweak precision constraints. I also study the production and detection of the fourth generation as well as the gluon resonances at the LHC.

Speaker: Dr Leandro Da Rold (Instituto de Fisica - Universidade de Sao Paulo)

Slides leandro-cern.pdf

17 Interactions of Heavy Exotic Hadrons

The search for stable heavy exotic hadrons is a promising way to observe new physics processes at collider experiments. The discovery potential for such particles can be enhanced or suppressed by their interactions with detector material. This paper describes a model for the interactions in matter of stable hadrons containing an exotic quark of charges $\pm {1/3}e$ or $\pm {2/3}e$ using Regge phenomenology and the Quark Gluon String Model. The influence of such interactions on searches at the LHC is also discussed.

Speaker: Dr David Milstead (Fysikum)

Slides rscat.pdf

18 Anomalous Resonant Production of the fourth family quarks at the LHC

Considering the present limits on the masses of fourth family quarks from the Tevatron experiments, the fourth family quarks are expected to have mass larger than the top quark. Due to their expected large mass they could have different dynamics than the quarks of three families of the Standard Model. The resonant production of the fourth family t' and b' quarks are studied via anomalous processes gqi-->t' and gqj-->b' (where qi=u,c and qj=d,s,b) at the LHC. The signatures of such processes are discussed within the SM and anomalous decay modes. The sensitivity to anomalous coupling kappa/Lambda can be reached down to 0.01 TeV-1.

Speaker: Orhan Cakir (University of Ankara)

Slides OCakir08.pdf

Discussion

Astroparticle & Cosmology

19 Dark matter from new stable quarks and leptons

Heavy stable charged particles can exist, hiding from us in bound atomlike states. Models with new stable charged leptons and quarks, giving rise to realistic composite dark matter scenarios, are reviewed.

Speaker: Prof. Maxim Khlopov (MEPhI and VIA/APC/CNRS)

Slides KhlopovBSMgenWSCERN2008.pdf KhlopovBSMgenWSCERN2008.ppt

20 Model of Electroweak scale active right-handed neutrinos, its extension and phenomenological implications

Electroweak scale active right-handed neutrinos can be directly produced at the LHC with characteristic signatures such as like-sign dileptons. Accompanying this is a rich Higgs structure such as doubly charged scalars which can also be probed at the LHC. The Pati-Salam extension of the model contains keV sterile neutrinos with astrophysical implications and it is suggested how a fourth family can fit snugly in this framework.

Speaker: Prof. P.Q. Hung (Virginia)

Slides cernws_08.pdf

21 On the origin of families and their mass matrices with the approach unifying spins and charges, prediction for the fourth family and the dark matter family

The approach unifying all the internal degrees of freedom---the spins and all the charges into only (two kinds of) the spin---is offering a new way of understanding the properties of quarks and leptons, that is their charges and their couplings to the gauge fields, the appearance of families and their mass matrices. The (simple) starting Lagrange density for spinors in d =1+13, which carry nothing but two kinds of spins-the Dirac kind and the additional one, commuting with the Dirac one (no charges) and interact with only the gravitational field through vielbeins and two kinds of spin connection fields---the gauge fields of the two kinds of the Clifford algebra objects---manifests in d=1+3 the properties of fermions and bosons as postulated by the Standard model of the electroweak and colour interactions, with the Yukawa couplings included. In this talk a way of spontaneous breaking of the starting symmetry which leads to the properties of the observed fermions is presented and rough predictions for not yet measured fermions is made, with the dark matter candidates included. The prediction is made that the fourth family will possibly be measured at LHC. The estimation is made that a cluster of the fifth family could be measured at new experiments with NaI.

Speaker: Prof. Norma Susana Mankoc Borstnik (University of Ljubljana, Fac. for Math. and Phys.)

Slides CernApproachPRESENT.pdf

Discussion

12:20 Lunch Break

Precision physics I

22 Electroweak radiative corrections and extra generations

Fit of precision electroweak data allows the existence of the fourth quark-lepton generation. If the latter exists then Higgs boson might be heavy.

Speaker: Prof. Mikhail Vysotsky (ITEP)

Slides 4gen08.pdf

23 Constraints on the quark and lepton mixing matrices from a few simple constraints within a fourth generation scenario

With the LHC start ahead new interest in the existence of a possible fourth generation of quarks and leptons came up recently. We point out that in the recent literature a few useful constraints on the fourth generation CKM and PMNS matrix elements have not been fully appreciated and we discuss their correlated impact of these constraints on the quark and lepton mixing matrices.

Speaker: Prof. Heiko Lacker (Berlin, Humboldt University)

Slides fourthgeneration.pdf

24 CPV in b-->s and bsbar - sbbar transitions

Speaker: George Wei-Shu Hou (National Taiwan University (NTU))

Slides CPVbtos.pdf CPVbtos.ppt

Discussion

14:45 Coffee Break

Precision physics II

25 Babar Results

Speaker: Dr Maurizio Pierini (CERN)

Slides 4thgen_slides.pdf

26 New Physics Search at B Factory

Speaker: Dr Paoti Chang (NTU)

Slides np_bfactory_pchang.pdf.pdf

27 LHCb : tree and tree+penguin decays: Bs->Jpsi phi, and B->hh, 3h

Speaker: Dr Vincenzo Vagnoni (INFN Bologna)

Slides B3SM_Vagnoni.pdf B3SM_Vagnoni.ppt

28 LHCb: penguin decays: Bs-> phi phi, phi gamma, phi mu mu and Bd-> K* mu mu

Rare loop induced decays of neutral B mesons are sensitive probe of NP. The reconstruction of the decays Bs -> phi phi, phi gamma, phi mu mu, Bd -> K* gamma and K* mu mu at the LHCb experiment will be discussed. The measurement of some observables sensitive to lepton generations beyond the SM, such as the CPV in the radiative penguins, the forward-backward asymmetry in the Bd->K* mumu and the CPV in the decays Bs->phi phi, Bs->phi mumu will also be presented.

Speaker: Nicola Serra (NIKHEF)

Slides BSM3_nserra.pdf

29 sin 2 beta_s status from CDF

Speaker: Dr Juan Pablo Fernandez (CDF)

more information ex1.pdf ex1.ppt

Slides b3smg-jpfr.pdf b3smg-jpfr.ppt

30 The fourth family: a natural explanation for the observed pattern of anomalies in B-CP asymmetries

Speaker: Dr Amarjit Soni (BNL)

Slides soni_4th.pdf

Discussion

Closing Remarks

31 WS summary & further discussions

Speaker: Dr Gokhan Unel (U.C. Irvine)