Jaume Guasch Publications

• List of publications from SPIRES (published in journals only).
• Computer programs.
• Preprints.
• Publications in refereed journals.
• Conference proceedings and other publications.

Computer programs

• Weak corrections to the e⁺e^-->H⁺H^- effective cross-section. (Program page).
• Weak and strong corrections to sfermion decays. (Program page).
• FCNC Higgs bosons decays in the MSSM: FCHDECAY

Preprints:

1. B.C. Allanach et al., Les Houches "Physics at TeV Colliders 2005" Beyond the Standard Model working group: summary report, hep-ph/0602198 (source, ps). (Spires). Proceedings of Workshop: Physics at TeV Colliders, Les Houches, France, 2-20 May 2005.

   The work contained herein constitutes a report of the "Beyond the Standard Model" working group for the Workshop "Physics at TeV Colliders", Les Houches, France, 2-20 May, 2005. We present reviews of current topics as well as original research carried out for the workshop. Supersymmetric and non-supersymmetric models are studied, as well as computational tools designed in order to facilitate their phenomenology.

2. K.A. Assamagan, J. Guasch, S. Moretti and S. Peñaranda, Determining the ratio of the H⁺ -> \tau \nu to H⁺ -> t b-bar decay rates for large \tan \beta at the Large Hadron Collider, MPP-2003-132, SHEP-03-36, PSI-PR-04-02, BNL-72033-2004-CP, hep-ph/0402212, (source, ps). (Spires). Contribution to the Les Houches Workshop: Physics at TeV Colliders (2003).

   We present results on the determination of the observable ratio R=BR(H⁺-> tau⁺ nu )/BR(H⁺-> t b-bar) of charged Higgs boson decay rates as a discriminant quantity between Supersymmetric and non-Supersymmetric models. Simulation of measurements of this quantity through the analysis of the charged Higgs production process g b -> t b H⁺ and relative backgrounds in the two above decay channels has been performed in the context of ATLAS. A \sim 12-14 % accuracy on R can be achieved for \tan \beta=50, \mHc=300-500 GeV and after an integrated luminosity of 300 fb^-1. With this precision measurement, the Large Hadron Collider (LHC) can easily discriminate between models for the two above scenarios, so long as \tan\beta > 20.

3. Jaume Guasch, Wolfgang Hollik, Joan Solà, Non-decoupling effects in sfermion-chargino/neutralino couplings, PSI-PR-03-10, (ps). Contribution to LHC / LC Study Group.

   We analyze the radiative effects induced by a heavy squark sector in the lepton-slepton-chargino/neutralino coupling. These effects are known to grow as the logarithm of the heavy squark mass. We concentrate on a scenario where sleptons and (some) charginos/neutralinos are light enough to be produced at an e⁺e^- Linear Collider, whereas squarks are heavy and can only be produced at the LHC. We conclude that the radiative effects of squarks are larger than the expected accuracy of the coupling measurements at a LC. A knowledge of the squark mass scale is necessary to provide a precise prediction for slepton-chargino/neutralino observables, but a moderate accuracy in the squark parameters is sufficient. These effects can be treated introducing chargino/neutralino effective coupling matrices.

4. J. Guasch, W. Hollik, S. Peñaranda, Some results on the distinction of Higgs boson models, MPI-PhT/2003-28, PSI-PR-03-08, LC-TH-2003-043, (ps), hep-ph/0307012 (source, ps). (Spires). updated talk given at the 2nd Workshop of the Extended Joint ECFA/DESY Study on Physics and Detectors for a Linear Electron - Positron Collider Saint Malo (France), 12-15 April 2002.

   We present results on the analysis of the ratio of branching ratios R=BR(H->b\bar{b})/BR(H->\tau^+\tau^-) of Higgs boson decays as a discriminant quantity between supersymmetric and non-supersymmetric models. A detailed analysis in the effective Lagrangian approach shows how one could discriminate between models at the Large Hadron Collider and the e⁺e^- Linear Collider at 500 GeV center of mass energy.

5. Jaume Guasch, Wolfgang Hollik, Joan Solà, Electroweak radiative corrections to sfermion decays, PSI-PR-03-09, LC-TH-2003-033 (ps), hep-ph/0307011 (source, ps). (Spires). updated talk given at the 2nd Workshop of the Extended Joint ECFA/DESY Study on Physics and Detectors for a Linear Electron - Positron Collider Saint Malo (France), 12-15 April 2002.

   We analyze the partial decay widths of sfermions decaying into charginos and neutralinos \Gamma(sfermion -> f' \chi) at the one-loop level, including the electroweak and strong corrections. We present the renormalization framework, and discuss the value of the corrections. Since these corrections show non-decoupling effects, we analyze the radiative effects induced by a heavy squark sector into the lepton-slepton-chargino/neutralino couplings. We conclude that some knowledge of the heavy sector is needed in order to provide a sufficient precise prediction for slepton observables at an e⁺e^- Linear Collider.

Papers published in refereed journals:

1. Jaume Guasch, Siannah Peñaranda, Raül Sánchez-Florit, Effective description of squark interactions, JHEP 0904:016,2009, arXiv:0812.1114 [hep-ph] (font, ps). (Spires).

   We propose an effective description of squark interactions with charginos/neutralinos. We recompute the strong corrections to squark partial decay widths, and compare the full one-loop computation with the effective description. The effective description includes the effective Yukawa couplings, and another logarithmic term which encodes the supersymmetry-breaking. The proposed effective couplings reproduce correctly the radiative-corrected partial decay widths of the squark decays into charginos and neutralinos in all relevant parts of the parameter space.

2. B.C. Allanach et al., SUSY Les Houches Accord 2, Comput. Phys. Commun. 180, 8-25, 2009, arXiv:0801.0045 [hep-ph] (source, ps). (Spires).

   The Supersymmetry Les Houches Accord (SLHA) provides a universal set of conventions for conveying spectral and decay information for supersymmetry analysis problems in high energy physics. Here, we propose extensions of the conventions of the first SLHA to include various generalisations: the minimal supersymmetric standard model with violation of CP, R-parity, and flavour, as well as the simplest next-to-minimal model.

3. Santi Béjar, Jaume Guasch, David López-Val, Joan Solà, FCNC-induced heavy-quark events at the LHC from Supersymmetry, Phys.Lett.B668:364-372,2008, arXiv:0805.0973 [hep-ph] (source, ps). (Spires).

   We analyze the production and subsequent decay of the neutral Higgs bosons of the MSSM into electrically neutral quark pairs qq'=bs,tc of different flavors at the LHC and compare with the direct FCNC production mechanisms. The cross-sections are computed in the unconstrained MSSM with minimal flavor-mixing sources and taking into account the stringent bounds from radiative B-meson decays. We extend the results previously found for these FCNC processes, which are singularly uncommon in the SM. Specifically, we report here on the SUSY-EW contribution of the Higgs-mediated FCNC cross-section into bs and tc final states and the SUSY-QCD and SUSY-EW contributions to bs-production. In this way, the complete map of MSSM predictions for the qq'-pairs produced at the LHC becomes available. The upshot is that the most favorable channels are: 1) the Higgs boson FCNC decays into bs, and 2) the direct production of tc pairs, both of them at the 1 pb level and mediated by SUSY-QCD effects. If, however, the latter are suppressed, we find a small SUSY-EW yield for the tc-production through Higgs decays but, at the same time, a cross-section of 0.1-1 pb for bs-production, which implies a significant number (10⁴-10⁵) of bs-pairs per 100 inverse femtobarn of integrated luminosity.

4. F. del Aguila, et al., Collider aspects of flavour physics at high Q, Eur.Phys.J.C57:183-308,2008, SLAC-PUB-13128, FERMILAB-CONF-08-439-T, arXiv:0801.1800 [hep-ph] (source, ps). (Spires). Report of the Working Group 1 of CERN Workshop Flavor in the Era of the LHC: A Workshop on the Interplay of Flavor and Collider Physics, Geneva, Switzerland, Nov 2005-March 2007.

   This review presents flavour related issues in the production and decays of heavy states at LHC, both from the experimental side and from the theoretical side. We review top quark physics and discuss flavour aspects of several extensions of the Standard Model, such as supersymmetry, little Higgs model or models with extra dimensions. This includes discovery aspects as well as measurement of several properties of these heavy states. We also present public available computational tools related to this topic.

5. David López-Val, Jaume Guasch, Joan Solà, Single top-quark production by strong and electroweak supersymmetric flavor-changing interactions at the LHC, JHEP 0712:054,2007, arXiv:0710.0587 [hep-ph] (source, ps). (Spires).

   (Abridged) We report on a complete study of the single top-quark production by direct supersymmetric flavor-changing neutral-current (FCNC) processes at the LHC. The total cross section for pp(gg)->t\bar{c}+\bar{t}c is computed at the 1-loop order within the unconstrained Minimal Supersymmetric Standard Model (MSSM). The present study extends the results of the supersymmetric strong effects (SUSY-QCD), which were advanced by some of us in a previous work, and includes the computation of the full supersymmetric electroweak corrections (SUSY-EW). Our analysis of pp(gg)->t\bar{c}+\bar{t}c in the MSSM has been performed in correspondence with the stringent low-energy constraints from b->s gamma. In the most favorable scenarios, the SUSY-QCD contribution can give rise to production rates of around 10⁵ events per 100 fb^-1 of integrated luminosity. Furthermore, we show that there exist regions of the MSSM parameter space where the SUSY-EW correction becomes sizeable. In the SUSY-EW favored regions, one obtains lower, but still appreciable, event production rates that can reach the 10³ level for the same range of integrated luminosity. We study also the possible reduction in the maximum event rate obtained from the full MSSM contribution if we additionally include the constraints from B⁰_s-\bar{B}⁰_s. In view of the fact that the FCNC production of heavy quark pairs of different flavors is extremely suppressed in the SM, the detection of a significant number of these events could lead to evidence of new physics -- of likely supersymmetric origin.

6. Giancarlo Ferrera, Jaume Guasch, David López-Val, Joan Solà, Triple Higgs boson production in the Linear Collider, Phys.Lett.B659:297-307,2008, arXiv:0707.3162 [hep-ph] (source, ps) (Spires).

   Triple Higgs boson production (3H) may provide essential information to reconstruct the Higgs potential. We consider 3H-production in the International Linear Collider (ILC) both in the Minimal Supersymmetric Standard Model (MSSM) and in the general Two-Higgs-doublet Model (2HDM). We compute the total cross-section for the various 3H final states, such as H⁺ H^- h⁰, H⁰ A⁰ h⁰, etc. and compare with the more traditional double Higgs (2H) boson production processes. While the cross-sections for the 2H final states lie within the same order of magnitude in both the MSSM and 2HDM, we find that for the 3H states the maximum 2HDM cross-sections, being of order 0.1 pb, are much larger than the MSSM ones which in most cases are of order 10^-6 pb or less. Actually, the 3H processes could be the dominant mechanism for Higgs boson production in the 2HDM. Ultimately the origin of the remarkable enhancement of the 3H channels in the 2HDM case (for both type I and type II models) originates in the structure of the trilinear Higgs boson couplings. The extremely clean environment of the ILC should allow a relatively comfortable tagging of the three Higgs boson events. In view of the fact that the MSSM contribution is negligible, these events should manifest themselves mainly in the form of 6 heavy-quark jet final states. Some of these signatures could be spectacular, and in case of being detected would constitute strong evidence of an extended Higgs sector of non-supersymmetric origin.

7. J.A. Aguilar-Saavedra, et al., Supersymmetry parameter analysis: SPA convention and project, Eur. Phys. J. C46 (2006) 43-60, hep-ph/0511344 (source, ps) (Spires).

   High-precision analyses of supersymmetry parameters aim at reconstructing the fundamental supersymmetric theory and its breaking mechanism. A well defined theoretical framework is needed when higher-order corrections are included. We propose such a scheme, Supersymmetry Parameter Analysis SPA, based on a consistent set of conventions and input parameters. A repository for computer programs is provided which connect parameters in different schemes and relate the Lagrangian parameters to physical observables at LHC and high energy e+e- linear collider experiments, i.e., masses, mixings, decay widths and production cross sections for supersymmetric particles. In addition, programs for calculating high-precision low energy observables, the density of cold dark matter (CDM) in the universe as well as the cross sections for CDM search experiments are included. The SPA scheme still requires extended efforts on both the theoretical and experimental side before data can be evaluated in the future at the level of the desired precision. We take here an initial step of testing the SPA scheme by applying the techniques involved to a specific supersymmetry reference point.

8. Jaume Guasch, Wolfgang Hollik, Siannah Peñaranda, Joan Solà, Single top-quark production by direct supersymmetric flavor-changing neutral-current interactions at the LHC, Nucl. Phys. B Proc. Suppl. 157 (2006) 152-156, UB-ECM-PF-06/05, CERN-PH-TH/2006-013, hep-ph/0601218 (source, ps). (Spires). Contribution to the proceedings of 7th International Symposium on Radiative Corrections, Application of Quantum Field Theory to Phenomenology - RADCOR 2005, Shonan Village, Japan, October 2-7 2005.

   Production of (electrically neutral) heavy-quark pairs, such as t c-bar and t-bar c, is extremely suppressed in the SM. In supersymmetric (SUSY) theories, such as the MSSM, the number of these events can be significantly enhanced thanks (mainly) to the FCNC couplings of gluinos. We compute the efficiency of this mechanism for FCNC production of heavy quarks at the LHC. We find that sigma (pp -> t c-bar+ t-bar c) can reach 1 pb, and therefore one can expect up to 10⁵ events per 100 fb^-1 of integrated luminosity (with no counterpart in the SM). Their detection would be instant evidence of new physics, and could be a strong indication of underlying SUSY dynamics.

9. Santi Béjar, Jaume Guasch, Joan Solà, SUSY Higgs boson flavor-changing neutral currents at the LHC, Nucl. Phys. B Proc. Suppl. 157 (2006) 147-151, UB-ECM-PF-06/03, UAB-FT-597, hep-ph/0601191 (source, ps). (Spires). Contribution to the proceedings of 7th International Symposium on Radiative Corrections, Application of Quantum Field Theory to Phenomenology - RADCOR 2005, Shonan Village, Japan, October 2-7 2005.

   We compute and analyze the Flavor-Changing Neutral Current (FCNC) interactions of Minimal Supersymmetric Standard Model Higgs bosons (h = h0, H0, A0) with heavy quarks (top and bottom), focusing on the strongly-interacting sector. We correlate the Higgs bosons production cross-section at the LHC with the FCNC decay branching ratios and find the maximum allowed values of the production rates, sigma(pp -> h -> qq') = sigma(pp -> h) x B(h -> qq') (qq'= tc or bs) after taking into account limits from low energy data on flavor-changing interactions. We single out the top channel, with a maximum production rate of sigma^max(pp -> h -> tc) =~ 10^-3 - 10^-2 pb, as the most promising FCNC channel to be detected at the LHC.

10. LHC/LC Study Group (G. Weiglein et al.), Physics interplay of the LHC and the ILC, Phys. Rept. 426 (2006) 47, SLAC-PUB-10764, ANL-HEP-PR-04-108, CERN-PH-TH-2004-214, DCPT-04-134, DESY-04-206, IFIC-04-59, IISC-CHEP-13-04, IPPP-04-67, UB-ECM-PF-04-31, UCD-04-28, UCI-TR-2004-37, hep-ph/0410364 (source, ps). (Spires).

    Physics at the Large Hadron Collider (LHC) and the International e+e- Linear Collider (ILC) will be complementary in many respects, as has been demonstrated at previous generations of hadron and lepton colliders. This report addresses the possible interplay between the LHC and ILC in testing the Standard Model and in discovering and determining the origin of new physics. Mutual benefits for the physics programme at both machines can occur both at the level of a combined interpretation of Hadron Collider and Linear Collider data and at the level of combined analyses of the data, where results obtained at one machine can directly influence the way analyses are carried out at the other machine. Topics under study comprise the physics of weak and strong electroweak symmetry breaking, supersymmetric models, new gauge theories, models with extra dimensions, and electroweak and QCD precision physics. The status of the work that has been carried out within the LHC / LC Study Group so far is summarised in this report. Possible topics for future studies are outlined.

11. K.A. Assamagan, J. Guasch, S. Moretti and S. Peñaranda, Distinguishing Higgs models in H⁺ -> tau⁺ nu /t b-bar at large tan beta, Czech. J. Phys. 55 (2005) B787-B792, CERN-PH-TH/2004-170, SHEP-04-26, hep-ph/0409189, (source, ps). (Spires). Contribution to Physics at LHC, 13-17 July 2004, Vienna, Austria.

    We present an experimental and theoretical analysis of the ratio of branching ratios R=BR(H⁺ -> tau⁺ nu)/BR(H⁺ -> t b-bar) of charged Higgs boson decays as a discriminant quantity between supersymmetric and non-supersymmetric models.

12. Jaume Guasch, Siannah Peñaranda, M_W and sin²\theta_eff in Split SUSY: present and future expectations, JHEP 0601 (2006) 121, CERN-PH-TH/2005-153, UB-ECM-PF-05/20, hep-ph/0508241, (source, ps). (Spires).

    We analyse the precision electroweak observables M_W and sin²\theta_eff and their correlations in the recently proposed Split SUSY model. We compare the results with the Standard Model and Minimal Supersymmetric Standard Model predictions, and with present and future experimental accuracies. Present experimental accuracies in (MW, sin^2\theta_eff) do not allow constraints to be placed on the Split SUSY parameter space. We find that the shifts in (M_W, sin²\theta_eff) induced by Split SUSY can be larger than the anticipated accuracy of the GigaZ option of the International Linear Collider, and that the most sensitive observable is sin²\theta_eff. These large shifts are possible also for large chargino masses in scenarios with small tan(\beta)=~ 1.

13. Santi Béjar, Jaume Guasch, Joan Solà, Production and FCNC decay of supersymmetric Higgs bosons into heavy quarks in the LHC, JHEP 0510 (2005) 113, UAB-FT-583, UB-ECM-PF-05/15, hep-ph/0508043, (source, ps). (Spires).

    We analyze the production and subsequent decay of the neutral MSSM Higgs bosons (h= h⁰, H⁰, A⁰) mediated by flavor changing neutral currents (FCNC) in the LHC collider. We have computed the h-production cross-section times the FCNC branching ratio, \sigma(pp-> h-> qq')=\sigma(pp-> h) x B(h-> qq'), in the LHC focusing on the strongly-interacting FCNC sector. Here qq' is an electrically neutral pair of quarks of different flavors, the dominant modes being those containing a heavy quark: tc or bs. We determine the maximum production rates for each of these modes and identify the relevant regions of the MSSM parameter space, after taking into account the severe restrictions imposed by low energy FCNC processes. The analysis of \sigma(pp-> h-> qq') singles out regions of the MSSM parameter space different from those obtained by maximizing only the branching ratio, due to non-trivial correlations between the parameters that maximize/minimize each isolated factor. The production rates for the bs channel can be huge for a FCNC process (0.1-1 pb), but its detection can be problematic. The production rates for the tc channel are more modest (10^-3-10^-2 pb), but its detection should be easier due to the clear-cut top quark signature. A few thousand tc events could be collected in the highest luminosity phase of the LHC, with no counterpart in the SM.

14. G. Degrassi et al., SUSY particle physics summary, Acta Phys. Polon. B35 (2004) 2711-2726 (Spires).

    A review of the activity of the European Network ``Physics at Colliders'' in the area of SUSY particle physics is presented.

15. E.W.N. Glover et al., Top quark physics at colliders, Acta Phys. Polon. B35 (2004) 2671-2694, hep-ph/0410110, (source, ps). (Spires).

    We review some recent developments in top quark production and decay at current and future colliders.

16. Santi Béjar, Francesc Dilmé, Jaume Guasch, Joan Solà, Higgs Boson Flavor-Changing Neutral Decays into Bottom Quarks in Supersymmetry, JHEP 0408 (2004) 018, PSI-PR-03-18, UB-ECM-PF 04/02, hep-ph/0402188, (source, ps). (Spires).

    We analyze the maximum branching ratios for the Flavor Changing Neutral Current (FCNC) decays of the neutral Higgs bosons of the Minimal Supersymmetric Standard Model (MSSM) into bottom quarks, h -> b\bar{s} (h=h⁰,H⁰,A⁰). We consistently correlate these decays with the radiative B-meson decays (b-> s\gamma). A full-fledged combined numerical analysis is performed of these high-energy and low-energy FCNC decay modes in the MSSM parameter space. Our calculation shows that the available data on B(b->s \gamma) severely restricts the allowed values of B(h->b\bar{s}). While the latter could reach a few percent level in fine-tuned scenarios, the requirement of naturalness reduces these FCNC rates into the modest range B(h->b\bar{s})~ 10^-4-10^-3. We find that the bulk of the MSSM contribution to B(h->b\bar{s}) could originate from the strong supersymmetric sector. The maximum value of the FCNC rates obtained in this paper disagree significantly with recent (over-)estimates existing in the literature. Our results are still encouraging because they show that the FCNC modes h->b\bar{s} can be competitive with other Higgs boson signatures and could play a helpful complementary role to identify the supersymmetric Higgs bosons, particularly the lightest CP-even state in the critical LHC mass region m_h⁰~= 90-130 GeV.

17. P. Skands et al., SUSY Les Houches Accord: Interfacing SUSY Spectrum Calculators, Decay Packages, and Event Generators, JHEP 0407 (2004) 036, hep-ph/0311123 (source, ps). (Spires).

    An accord specifying generic file structures for 1) supersymmetric model specifications and input parameters, 2) electroweak scale supersymmetric mass and coupling spectra, and 3) decay tables is defined, to provide a universal interface between spectrum calculation programs, decay packages, and high energy physics event generators.

18. J. Guasch, P. Häflinger, M. Spira, MSSM Higgs Decays to Bottom Quark Pairs revisited, Phys. Rev. D68 (2003) 115001, PSI-PR-03-06, hep-ph/0305101 (source, ps). (Spires).

    We present an update of neutral Higgs boson decays into bottom quark pairs in the minimal supersymmetric extension of the Standard Model. In particular the resummation of potentially large higher-order corrections due to the soft SUSY breaking parameters A_b and \mu is extended. The remaining theoretical uncertainties due to unknown higher-order corrections are analyzed quantitatively.

19. Santi Béjar, Jaume Guasch, Joan Solà, Higgs Boson Flavor-Changing Neutral Decays into Top Quark in a General Two-Higgs-Doublet Model, Nucl. Phys. B675 (2003) 270-288, UAB-FT-546, PSI-PR-03-11, UB-ECM-PF-03/13, hep-ph/0307144 (source, ps). (Spires).

    Higgs boson decays mediated by flavor changing neutral currents (FCNC) are very much suppressed in the Standard Model, at the level of 10^-13 for Higgs boson masses of a few hundred GeV. Therefore, any experimental vestige of them would immediately call for new physics. In this paper we consider the FCNC decays of Higgs bosons into top quarks in a general two-Higgs-doublet model (2HDM). The isolated top quark signature, unbalanced by any other heavy particle, should help to identify the potential FCNC events much more than any other final state. We compute the maximum branching ratios and the number of FCNC Higgs boson decay events at the LHC collider at CERN. The most favorable mode for production and subsequent FCNC decay is the lightest CP-even state in the Type II 2HDM, followed by the other CP-even state, if it is not very heavy, whereas the CP-odd mode can never be sufficiently enhanced. Our calculation shows that the branching ratios of the CP-even states may reach 10^-5, and that several hundred events could be collected in the highest luminosity runs of the LHC. We also point out some strategies to use these FCNC decays as a handle to discriminate between 2HDM and supersymmetric Higgs bosons.

20. A. Freitas et al., Sfermion Precision Measurements at a Linear Collider, Nucl. Phys. B Proc. Suppl. 117 Supplement 1, (2003) 807-810, DESY-02-176, hep-ph/0211108 (source, ps). (Spires). Contribution to the proceedings of XXXI international conference on high energy physics (ICHEP02) July 24 - 31, 2002, Amsterdam, The Netherlands, p. 807-810, and International Workshop on Linear Colliders, August 26 - 30, 2002 Jeju Island, Korea.

    At future e+- e- linear colliders, the event rates and clean signals of scalar fermion production - in particular for the scalar leptons - allow very precise measurements of their masses and couplings and the determination of their quantum numbers. Various methods are proposed for extracting these parameters from the data at the sfermion thresholds and in the continuum. At the same time, NLO radiative corrections and non-zero width effects have been calculated in order to match the experimental accuracy. The substantial mixing expected for the third generation sfermions opens up additional opportunities. Techniques are presented for determining potential CP-violating phases and for extracting tan(beta) from the stau sector, in particular at high values. The consequences of possible large mass differences in the stop and sbottom system are explored in dedicated analyses.

21. Alexander Belyaev, Jaume Guasch, Joan Solà, Supersymmetric effects on heavy charged Higgs boson production in hadron colliders, Nucl. Phys. B Proc. Suppl. 116 (2003) 296-300, UB-ECM-PF-02-22, hep-ph/0210253 (source, ps). (Spires). Talk given by J. Solà a 6th International Symposium on Radiative Corrections Application of Quantum Field Theory to Phenomenology - RADCOR 2002 and 6th Zeuthen Workshop on Elementary Particle Theory Loops and Legs in Quantum Field Theory September 8-13 2002 Kloster Banz, Germany.

    The production of a heavy supersymmetric charged Higgs boson (M_{H^{\pm}}> 200 GeV) at the Tevatron and at the LHC is studied. We include the leading one-loop quantum effects within the MSSM in the relevant high \tan\beta region. Whereas the chances for the Tevatron are limited, and critically depend on the size of the unknown NLO QCD effects, at the LHC the discovery range is more comfortable and may extend the reach above M_{H^{\pm}}= 1 TeV.

22. Jaume Guasch, Wolfgang Hollik, Joan Solà, Fermionic decays of sfermions in the MSSM: a full one-loop calculation, Nucl. Phys. B Proc. Suppl. 116 (2003) 301-305, PSI-PR-02-11, UB-ECM-PF-02-20, hep-ph/0210118 (source, ps).(Spires). Talk given by J. Guasch at 6th International Symposium on Radiative Corrections Application of Quantum Field Theory to Phenomenology - RADCOR 2002 and 6th Zeuthen Workshop on Elementary Particle Theory Loops and Legs in Quantum Field Theory September 8-13 2002 Kloster Banz, Germany.

    We present a full one-loop calculation of the electroweak corrections to the partial decay widths of the fermionic modes of sfermions \Gamma(\sfermion -> f'\chi). The main technical points of the renormalization are presented, and the main features of the results are discussed.

23. Jaume Guasch, Wolfgang Hollik, Joan Solà, Fermionic decays of sfermions: a complete discussion at one-loop order, JHEP 10 (2002) 040, KA-TP-1-2002, UB-ECM-PF-02/03, MPI-PhT/2002-27, PSI-PR-02-07, hep-ph/0207364 (source, ps). (Spires). A Computer program is also available.

    We present a definition of an on-shell renormalization scheme for the sfermion and chargino-neutralino sector of the Minimal Supersymmetric Standard Model (MSSM). Then, apply this renormalization framework to the interaction between charginos/neutralinos and sfermions. A kind of universal corrections is identified, which allow to define effective chargino/neutralino coupling matrices. In turn, these interactions generate (universal) non-decoupling terms that grow as the logarithm of the heavy mass. Therefore the full MSSM spectrum must be taken into account in the computation of radiative corrections to observables involving these interactions. As an application we analyze the full one-loop electroweak radiative corrections to the partial decay widths \Gamma(\tilde{f} -> f\neut) and \Gamma(\tilde{f} -> f'\cplus) for all sfermion flavours and generations. These are combined with the QCD corrections to compute the corrected branching ratios of sfermions. It turns out that the electroweak corrections can have an important impact on the partial decay widths, as well as the branching ratios, in wide regions of the parameter space. The precise value of the corrections is strongly dependent on the correlation between the different particle masses.

24. Alexander Belyaev, David Garcia, Jaume Guasch, Joan Solà, Prospects for heavy supersymmetric charged Higgs boson searches at hadron colliders, JHEP 06 (2002) 059, CERN-TH/2001-051, KA-TP-7-2001, UB-ECM-PF-02/02, FSU-HEP-020301, hep-ph/0203031 (source, ps). (Spires)

    We investigate the production of heavy charged Higgs bosons at hadron colliders within the context of the MSSM. A detailed study is performed for all important production modes and basic background processes for the t\bar{t}b\bar{b} signature. In our analysis we include effects of initial and final state showering, hadronization, and principal detector effects. For the signal production rate we include the leading SUSY quantum effects at high tan(beta)>~ m_t/m_b. Based on the obtained efficiencies for the signal and background we estimate the discovery and exclusion mass limits of the charged Higgs boson at high values of tan(beta). At the upgraded Tevatron the discovery of a heavy charged Higgs (M_H⁺>~ 200 GeV) is impossible for the tree-level cross-section values. However, if QCD and SUSY effects happen to reinforce mutually, there are indeed regions of the MSSM parameter space which could provide 3 \sigma evidence and, at best, 5 \sigma charged Higgs discovery at the Tevatron for charged Higgs masses M_H⁺<~300 GeV and M_H⁺<~ 250 GeV, respectively, even assuming squark and gluino masses in the (500-1000) GeV range. On the other hand, at the LHC one can discover a H⁺ as heavy as 1 TeV at the canonical confidence level of 5 \sigma; or else exclude its existence at 95% C.L. up to masses ~1.5 TeV. Again the presence of SUSY quantum effects can be very important here as they may shift the LHC limits by a few hundred GeV.

25. Alexander Belyaev, David Garcia, Jaume Guasch, Joan Solà, Prospects for supersymmetric charged Higgs boson discovery at the Tevatron and the LHC, Phys. Rev. D65 (2002), 031701(R), KA-TP-15-2001, FSU-HEP-050101, UAB-FT-512, hep-ph/0105053 (source, ps). (Spires)

    We investigate the prospects for heavy charged Higgs boson production through the mechanisms pp-bar(pp)->tbH+ +X at the upgraded Fermilab Tevatron and at the upcoming LHC collider at CERN respectively. We focus on the MSSM case at high values of tan[beta]> m_top/m_bot and include the leading SUSY quantum corrections. A detailed study is performed for all important production modes and basic background processes for the "ttbb" signature. At the upgraded Tevatron a charged Higgs signal is potentially viable in the 220-250 GeV range or excluded at 95%CL up to 300 GeV. At the LHC, a H+ of mass up to 800 GeV can be discovered at 5 sigma or else be excluded up to a mass of ~ 1.5 TeV. The presence of SUSY quantum effects may highly influence the discovery potential in both machines and can typically shift these limits by 200 GeV at the LHC.

26. Jaume Guasch, Wolfgang Hollik, Siannah Peñaranda, Distinguishing Higgs models in H -> b b-bar / H -> tau⁺ tau^-, Phys. Lett. B515 (2001), 367-374, KA-TP-19-2001, hep-ph/0106027 (source, ps) (Spires entry).

    We analyze the ratio of branching ratios R=BR(H-> b b-bar)/BR(H->tau⁺ tau^-) of Higgs boson decays as a discriminant quantity between supersymmetric and non-supersymmetric models. This ratio receives large renormalization-scheme independent radiative corrections in supersymmetric models at large tan(beta), which are absent in the Standard Model or Two-Higgs-doublet models. These corrections are insensitive to the supersymmetric mass scale. A detailed analysis in the effective Lagrangian approach shows that, with a measurement of +-21% accuracy, the Large Hadron Collider can discriminate between models if the CP-odd Higgs boson mass is below 900 GeV. An e+e- Linear Collider at 500 GeV center of mass energy can discriminate supersymmetric models up to a CP-odd Higgs mass of ~ 1.8 TeV.

27. Jaume Guasch, Wolfgang Hollik, Joan Solà, Full electroweak one-loop radiative corrections to squark decays in the MSSM, Phys. Lett. B510 (2001) 211-220, KA-TP-25-2000, UAB-FT-505, hep-ph/0101086 (source, ps) (Spires entry).

    We present results on the full one-loop electroweak radiative corrections to the squark decay partial widths into charginos and neutralinos. We show the renormalization framework, and present numerical results for the third squark family. The corrections can reach values of ~ 10%, which are comparable to the radiative corrections from the strong sector of the model. Therefore they should be taken into account for the precise extraction of the SUSY parameters at future colliders.

28. S. Béjar, J. Guasch, J. Solà, Loop Induced Flavor Changing Neutral Decays of the Top Quark in a General Two-Higgs-Doublet Model, Nucl. Phys. B600 (2001) 21-38, KA-TP-22-2000, UAB-FT-491, hep-ph/0011091 (source, ps) (Spires entry).

    Decays of the top quark induced by flavor changing neutral currents (FCNC) are known to be extremely rare events within the Standard Model. This is so not only for the decay modes into gauge bosons, but most notably in the case of the Higgs channels, e.g. t-> H_SM+c, with a branching fraction of 10^-13 at most. Therefore, detection of FCNC top quark decays in a future high-energy, and high-luminosity, machine like the LHC or the LC would be an indisputable signal of new physics. In this paper we show that within the simplest extension of the SM, namely the general two-Higgs-doublet model, the FCNC top quark decays into Higgs bosons, t->(h⁰, H⁰, A⁰)+c, can be the most favored FCNC modes -- comparable or even more efficient than the gluon channel t ->g+c. In both cases the optimal results are obtained for Type II models. However, only the Higgs channels can have rates reaching the detectable level (10^-5), with a maximum of order 10^-4 which is compatible with the charged Higgs bounds from radiative B-meson decays. We compare with the previous results obtained in the Higgs sector of the MSSM.

29. Jaume Guasch, Wolfgang Hollik, Arnd Kraft, Radiative corrections to pair production of charged Higgs bosons in e⁺e^- collisions, Nucl. Phys. B596 (2001) 66-80. A computer program is also available (Spires entry).
    

    Charged Higgs particles are a common feature of many extensions of the Standard Model. While its existence with masses up to the TeV scale can be probed at the Tevatron Run II and LHC hadron colliders, a precise determination of its properties would have to wait for a high energy e⁺e^- linear collider. We have computed the complete one-loop electroweak corrections to the cross-section for charged Higgs bosons pair production in e⁺e^- collisions, in the framework of general Two Higgs Doublet Models, as well as the Minimal Supersymmetric Standard Model. A study is presented for typical values of the model parameters, showing the general behaviour of the corrections.

30. Jaume Guasch, Joan Solà, FCNC top quark decays in the MSSM: a door to SUSY physics in high luminosity colliders? , Nucl. Phys. B562 (1999) 3-28, UAB-FT-429, KA-TP-6-99, hep-ph/9906268 (source, ps) (Spires entry).
    

    We study the FCNC top quark decays t -> c h in the framework of the MSSM, where h= h⁰,H⁰,A⁰ is any of the supersymmetric neutral Higgs bosons. We include the leading set of SUSY-QCD and SUSY electroweak contributions. While the FCNC top quark decay into the SM Higgs boson has such a negligible rate that will not be accessible to any presently conceivable accelerator, we find that there is a chance that the potential rates in the MSSM can be measured at the high luminosity colliders round the corner, especially at the LHC and possibly at a future LC, but we deem it difficult at the upgraded Tevatron. In view of the large SUSY-QCD effects that we find in the Higgs channels, and due to some discrepancies in the literature, we have revisited the FCNC top quark decay into gluon, t -> c g, in our framework. We confirm that the possibility of sizeable rates does not necessarily require a general pattern of gluino-mediated FCNC interactions affecting both the LH and the RH sfermion sectors -the LH one being sufficient. However, given the present bounds on sparticle masses, the gluon channel turns out to lie just below the expected experimental sensibility, so our general conclusion is that the Higgs channels t -> c h (especially the one for the light CP-even Higgs) have the largest potential top quark FCNC rates in the MSSM, namely of order 10^-4.

31. J.A. Coarasa, Jaume Guasch, Joan Solà, Wolfgang Hollik, Top quark decay into charged Higgs boson in a general Two-Higgs-Doublet model: implications for the TEVATRON data, Phys. Lett. B442 (1998) 326-334, UAB-FT-450, KA-TP-14-1998, hep-ph/9808278 (source, ps) (Spires entry).

    We analyze the unconventional top quark decay mode t -> H⁺ b at the quantum level within the context of general Two-Higgs-Doublet models by including the full electroweak effects from the Yukawa couplings. The results are presented in the on-shell renormalization scheme with a physically well motivated definition of tan(beta). While the QCD corrections have been taken into account in the current experimental analyses of that decay, the electroweak effects have always been neglected. However, we find that they can be rather large and could dramatically alter the interpretation of the present data from the Tevatron collider. For instance, in large portions of the parameter space the electroweak effects prevent the Tevatron data from placing any bound at all to the charged Higgs mass for essentially any value of tan(beta).

32. Jaume Guasch, Joan Solà, Wolfgang Hollik, Yukawa-coupling corrections to scalar quark decays, Phys. Lett. B437 (1998) 88-99, UAB-FT-430, KA-TP-1-1998, hep-ph/9802329 (source, ps) (Spires)
    

    Heavy squark decays into top and charginos or neutralinos could be an unexpected source of top quarks at hadron colliders. A detailed treatment of these processes is necessary for a reliable calculation of both the top quark production cross-section and the standard top quark branching ratio in the MSSM. Along this line we compute the electroweak corrections to the sbottom decays sb_a -> chi_i t within the Yukawa coupling approximation. The calculation of these higher order contributions requires renormalization of both the bottom squark mixing angle and of tan(beta). This type of corrections gives the leading order electroweak effects at low and high tan(beta).

33. J.A. Coarasa, David Garcia, Jaume Guasch, Ricardo A. Jiménez, Joan Solà, Heavy charged Higgs boson decaying into top quark in the MSSM, Phys. Lett. B425 (1998) 329-336, UAB-FT-433, hep-ph/9711472 (source, ps) (Spires entry)
    

    Observing a heavy charged Higgs boson produced in the near future at the Tevatron or at the LHC would be instant evidence of physics beyond the Standard Model. Whether such a Higgs boson would be supersymmetric or not it could only be decided after accurate prediction of its properties. Here we compute the decay width of the dominant decay of such a boson, namely H⁺ -> t anti-b , including the leading electroweak corrections originating from large Yukawa couplings within the MSSM. These electroweak effects turn out to be of comparable size to the O(alpha_s) QCD corrections in relevant portions of the MSSM parameter space. Our analysis incorporates the stringent low-energy constraints imposed by radiative B-meson decays.

34. J.A. Coarasa, David Garcia, Jaume Guasch, Ricardo A. Jiménez, Joan Solà, Quantum effects on t -> H⁺ b in the MSSM: a window to ``virtual'' supersymmetry? , Eur. Phys. J. C2 (1998) 373-392, UAB-FT-397, hep-ph/9607485 (source, ps) (Spires entry).
    

    We analyze the one-loop effects (strong and electroweak) on the unconventional top quark decay mode t -> H⁺ b within the MSSM. The results are presented in the on-shell renormalization scheme with a physically well motivated definition of tan(beta). The study of this process at the quantum level is useful to unravel the potential supersymmetric nature of the charged Higgs emerging from that decay. As compared with the standard mode t -> W⁺ b, the corrections to t -> H⁺ b are large, slowly decoupling and persist at a sizeable level even for all sparticle masses well above the LEP 200 discovery range. Therefore, if the charged Higgs decay of the top quark is kinematically allowed --a possibility which is not excluded by the recent measurements of the branching ratio BR(t -> W⁺ b) at the Tevatron -- it could be an invaluable laboratory to search for ``virtual'' supersymmetry. As a matter of fact, the potential size of the SUSY effects, which amount to corrections of several ten percent, could counterbalance the standard QCD corrections and even make them to appear with the ``wrong'' sign. While a first significant test of these effects could possibly be performed at the upgraded Tevatron, a more precise verification would most likely be carried out in future experiments at the LHC.

35. Jaume Guasch, Joan Solà, Implications on the Supersymmetric Higgs sector from Top quark decays at the Tevatron, Phys.Lett.B416:353-360,1998, UAB-FT-422, hep-ph/9707535 (source, ps) . (Spires)
    

    From the tau-lepton analysis of the charged Higgs decay of the top quark at the Tevatron, t -> H⁺ b -> tau⁺ nu_tau b, it is possible to set rather stringent bounds on the (tan(beta),M_H^+-)-plane, if one assumes that H^+- is a charged member of a generic two-Higgs-doublet model. However, if we consider the possibility that H^+- is supersymmetric, then we find that the allowed region in the (tan(beta),M_H^+-)-plane can be significantly modified by the MSSM quantum corrections. Throughout our analysis we correlate the top quark results with the limits imposed by radiative and semileptonic B-meson decays. Remarkably, one can envision situations in the MSSM parameter space where H^+- completely eludes those bounds, i.e. a charged Higgs with a mass below the top quark mass could coexist with essentially any value of tan(beta).

36. Jaume Guasch, Joan Solà, Supersymmetric three-body decays of the Top Quark in the MSSM, Z. Phys C,74, 2 337-354 ( 1997) UAB-FT-389, hep-ph/9603441 (source, ps) (Spires entry).
    

    We survey all possible supersymmetric three-body decays of the top quark in the framework of the MSSM and present detailed numerical analyses of the most relevant cases. Although the two-body channels are generally dominant, it is not inconceivable that some or all of our most favourite two-body SUSY candidates could be suppressed. In this event there is still the possibility that some of the available three-body SUSY modes might exhibit a substantial branching fraction and/or carry exotic signatures that would facilitate their identification. Furthermore, in view of the projected inclusive measurement of the top-quark width Gamma_t in future colliders, one should have at one's disposal the full second order correction (electroweak and strong) to the value of that parameter in the MSSM. Our analysis confirms that some supersymmetric three-body decays could be relevant and thus contribute to Gamma_t at a level comparable to the largest one loop supersymmetric effects on two-body modes recently computed in the literature.

37. Jaume Guasch, Ricardo A. Jimenez, Joan Solà, Supersymmetric QCD Corrections to the Charged Higgs Boson Decay of the Top Quark, Phys. Lett. B360 (1995) 47-56., UAB-FT-370, hep-ph/9507461 (source, ps). (Spires)
    

    The one-loop supersymmetric QCD quantum effects on the width of the unconventional top quark decay mode t -> H⁺ b are evaluated within the MSSM. The study of this process is useful to hint at the supersymmetric nature of the charged Higgs emerging from that decay. Remarkably enough, recent calculations of supersymmetric corrections to Z-boson observables have shown that the particular conditions by which the decay t -> H⁺ b becomes competitive with the standard decay t -> W⁺ b have a chance to be realized in nature. This further motivates us to focus our attention on the dynamics of t -> H⁺ b as an excellent laboratory to unravel Supersymmetry at the quantum level in future experiments at Tevatron and at LHC.

Conference proceedings and other publications:

1. Giancarlo Ferrera, Jaume Guasch, David López-Val, Joan Solà, Triple Higgs boson production at the ILC within a generic Two-Higgs-Doublet Model, arXiv:0801.3907 [hep-ph] (source, ps). (Spires). Proceedings of 8th International Symposium on Radiative Corrections (RADCOR 2007): Application of Quantum Field Theory to Phenomenology, Florence, Italy, 1-6 Oct 2007, published in Proceedings of Science RADCOR 2007 043,2007

   We present a study of triple Higgs boson (3H) production at the International Linear Collider (ILC) within the general Two-Higgs-Doublet Model (2HDM). We compute the production cross-sections at the leading-order for the 3H final states and find values up to sigma ~ 0.1 pb. This result represents a large enhancement with respect to the corresponding MSSM cross-sections, which stay typically at the level of sigma ~ 10^(-6) pb or less. Furthermore, since the 3H cross-sections in the general 2HDM can be of the order of the double Higgs production cross-sections, such 3H processes could be a competitive (if not the dominant) mechanism for Higgs boson production at the ILC. In practice, these 3H events could be identified through the tagging of 6 heavy-quark jet final states and, in this case, they would provide strong evidence of an extended Higgs boson sector -- likely of non-supersymmetric nature.

2. David López-Val, Jaume Guasch, Joan Solà, Production of single top-quark final states at the LHC from supersymmetric FCNC interactions, arXiv:0801.2469 [hep-ph] (source, ps). (Spires). Proceedings of 8th International Symposium on Radiative Corrections (RADCOR 2007): Application of Quantum Field Theory to Phenomenology, Florence, Italy, 1-6 Oct 2007, published in Proceedings of Science RADCOR 2007 042,2007

   We discuss the production of single top-quark final states by direct supersymmetric flavor-changing interactions at the LHC. The total cross section pp(gg)->t\bar{c}+\bar{t}c is computed at the 1-loop order within the unconstrained MSSM. We prove that SUSY-QCD effects may furnish sizeable production rates amounting up to barely 10⁵ t\bar{c}(c\bar{t}) events per 100 fb^-1 of integrated luminosity, in full compliance with the stringent low-energy constraints from b->s gamma. Furthermore, we show that the cooperative SUSY-EW effects can be sizeable on their own, regardless of the SUSY-QCD contribution, with maximum production rates of the order of 10³ events per 100 fb^-1. Owing to the fact that FCNC production of electrically neutral heavy-quark pairs is virtually absent within the SM, we conclude that the observation of such pp(gg)->t\bar{c}+\bar{t}c processes at the LHC could lead to evidence of new physics - of likely supersymmetric nature.

3. Jaume Guasch, Wolfgang Hollik, Joan Solà, Full one-loop corrections to sfermion decays, PSI-PR-02-12, UB-ECM-PF-02-21, hep-ph/0210120 (source, ps). (Spires). Proceedings of The 10th International Conference on Supersymmetry and Unification of Fundamental Interactions (SUSY 02) June 17-23 2002, DESY Hamburg, Germany, p. 979-987.

   We analyze the partial decay widths of sfermions decaying into charginos and neutralinos \Gamma(\sfermion -> f'\chi) at the one-loop level. We present the renormalization framework, and discuss the value of the corrections for top- and bottom-squark decays.

4. J.A. Aguilar-Saavedra et al., TESLA: the superconducting electron positron linear collider with an integrated X-ray laser laboratory. Technical design report. Part 3. Physics at an e⁺ e^- linear collider, R.-D. Heuer, D.J. Miller, F. Richard, P.M. Zerwas editors, hep-ph/0106315 (source, ps), also available at http://tesla.desy.de/tdr. (Spires).
5. Santi Béjar, Jaume Guasch, Joan Solà, FCNC top quark decays beyond the Standard Model, KA-TP-1-2001, UAB-FT-506, hep-ph/0101294 (source, ps). (Spires). Invited talk presented by Joan Solà at the 5th International Symposium on Radiative Corrections (RADCOR 2000) Carmel CA, USA, 11-15 September, 2000, to appear in the proceedings.

   Flavor Changing Neutral Current decays of the top quark within the strict context of the Standard Model are known to be extremely rare. In fact, they are hopelessly undetectable at the Tevatron, LHC and LC in any of their scheduled upgradings. Therefore, if a few of these events eventually show up in the future we will have certainly discovered new physics. We argue that this could well be the case for the LHC and the LC both within the Minimal Supersymmetric Standard Model (MSSM) and in a general two-Higgs-doublet model (2HDM), especially if we look for FCNC top quark decays into Higgs bosons.

6. J. Guasch, Some results on top quark decays in the MSSM, KA-TP-26-2000, LC-TH-2001-71, Backup note for the TESLA TDR top-quark chapter (ps) (Spires).

   We present results on the top quark partial decay widths Gamma(t -> b H⁺) and Gamma(t -> stop₁ \chi⁰₁), presented in the TESLA TDR top-quark chapter.

7. M. Carena et al., Report of the Higgs Working Group of the Tevatron Run 2 SUSY/Higgs Workshop, FERMILAB-CONF-00-279-T, SCIPP-00/37, hep-ph/0010338 (source, ps). (Spires). To appear in Proceedings of the Physics at Run II -- Supersymmetry/Higgs Workshop.

   This report presents the theoretical analysis relevant for Higgs physics at the upgraded Tevatron collider and documents the Higgs Working Group simulations to estimate the discovery reach in Run 2 for the Standard Model and MSSM Higgs bosons. Based on a simple detector simulation, we have determined the integrated luminosity necessary to discover the SM Higgs in the mass range 100-190 GeV. The first phase of the Run 2 Higgs search, with a total integrated luminosity of 2 fb^-1 per detector, will provide a 95% CL exclusion sensitivity comparable to that expected at the end of the LEP2 run. With 10 fb^-1 per detector, this exclusion will extend up to Higgs masses of 180 GeV, and a tantalizing 3 sigma effect will be visible if the Higgs mass lies below 125 GeV. With 25 fb^-1 of integrated luminosity per detector, evidence for SM Higgs production at the 3 sigma level is possible for Higgs masses up to 180 GeV. However, the discovery reach is much less impressive for achieving a 5 sigma Higgs boson signal. Even with 30 fb^-1 per detector, only Higgs bosons with masses up to about 130 GeV can be detected with 5 sigma significance. These results can also be re-interpreted in the MSSM framework and yield the required luminosities to discover at least one Higgs boson of the MSSM Higgs sector. With 5-10 fb^-1 of data per detector, it will be possible to exclude at 95% CL nearly the entire MSSM Higgs parameter space, whereas 20-30 fb^-1 is required to obtain a 5 sigma Higgs discovery over a significant portion of the parameter space. Moreover, in one interesting region of the MSSM parameter space (at large tan(beta)), the associated production of a Higgs boson and a b b-bar pair is significantly enhanced and provides potential for discovering a non-SM-like Higgs boson in Run 2.

8. J. Guasch, W. Hollik, J.I. Illana, C. Schappacher, J. Solà, Top-Quark Production and Decay in the MSSM, DESY 00-036, KA-TP-4-2000, UAB-FT-483, UG-FT-113/00, LC-TH-2000-030, hep-ph/0003109 (source, ps). (Spires). Contribution to the proceedings of the 2nd Joint ECFA/DESY Workshop on Physics and Detectors for a Linear Electron-Positron Collider, based on talks presented by J.I. Illana at Frascati (Italy) November 8-10th 1998, J. Guasch at Oxford (UK) March 20-23 1999 and W. Hollik at Obernai (France) 16-19th October 1999.

   We review the features of top-quark decays and loop-induced effects in the production cross section and CP-violating observables of e⁺e^- -> t t-bar which are specific to the R-parity conserving Minimal Supersymmetric Standard Model (MSSM).

9. Jaume Guasch, Wolfgang Hollik, Joan Solà, Radiative Corrections to scalar quark decays in the MSSM, KA-TP-2-2000, UAB-FT-482, LC-TH-2000-013, hep-ph/0001254 (source, ps). (Spires). Talk presented by J. Guasch at 2nd ECFA/DESY Study on Physics and Detectors for a Linear Electron-Positron Collider, Frascati (Italy) 7-10th November, 1998.
   

   We review the one-loop corrections to the partial decay width of sbottom-quark into a top quark and a chargino for the parameter space relevant to the TESLA e⁺e^- linear collider. We present the results available in the literature for the QCD and the Yukawa coupling corrections in a unified framework. In this way a direct comparison of the size of the various corrections is possible.

10. Jaume Guasch, Wolfgang Hollik, Arnd Kraft, Radiative corrections to pair production of charged Higgs bosons at TESLA, KA-TP-19-1999, LC-TH-1999-006, hep-ph/9911452 (source, ps). (Spires). Talk presented by J. Guasch at the Vth workshop in the 2nd ECFA/DESY Study on Physics and Detectors for a Linear Electron-Positron Collider, Obernai (France) 16-19th October, 1999. A computer program is also available.
    

    Charged Higgs particles are a common feature of many extensions of the Standard Model. While its existence with masses up to the TeV scale can be probed at the Tevatron Run II and LHC hadron colliders, a precise determination of its properties would have to wait for a high energy e⁺e^- linear collider. We have computed the complete one-loop electroweak corrections to the cross-section for charged Higgs bosons pair production in e⁺e^- collisions, in the framework of general Two Higgs Doublet Models, as well as the Minimal Supersymmetric Standard Model. A study is presented for typical values of the model parameters, showing the general behaviour of the corrections.

11. J.A. Coarasa, Jaume Guasch, Joan Solà, Top quark and charged Higgs at the Tevatron-Run II, UAB-FT-471, KA-TP-13-1999, hep-ph/9909397 (source, ps). (Spires). Updated talk presented in: Physics at Run II Workshop on Supersymmetry/Higgs, Fermilab, to appear in the proceedings.
    

    We shortly review the top quark decay into charged Higgs, and present new results on its production at the upgraded Tevatron. We have computed the MSSM cross-section for single charged Higgs in association with the top quark beyond the regime of on-shell t t-bar production followed by the decay t ->H⁺b. Our results are higher than recent results in the literature. In the case where H⁺ belongs to the Higgs sector of the MSSM, we show that the leading supersymmetric radiative corrections may substantially increase the cross-section. Overall we find that the charged Higgs production process can be complementary to the neutral Higgs production processes W \Phi and b b-bar \Phi, which have been studied under similar circumstances. Since the neutral and charged Higgs channels are enhanced in the same region of the parameter space, the simultaneous detection of all these processes could be essential for an effective experimental underpinning of the nature of these Higgs particles at the Tevatron-Run II.

12. Jaume Guasch, Joan Solà, Top quark decays into neutral Higgs bosons and gluon in the MSSM, UAB-FT-473, KA-TP-15-1999, hep-ph/9909503 (source, ps). (Spires). Talk presented in: International Workshop on Linear Colliders, Sitges, April 28-May 5, 1999, proceedings (ISBN 84-490-1977-X), Universitat Autònoma de Barcelona 2000, eds. E. Fernández, A. Pacheco.
    

    Flavour changing neutral decays of the top quark are know to be extremely suppressed in the SM. This is especially so for the top quark decay into the SM Higgs boson, whose rate is less than 10^-13. However, it turns out that the decay modes t->c h, with h= h⁰,H⁰,A⁰ any of the MSSM neutral Higgs bosons, can be much more gifted. In particular, the rate into the lightest CP-even Higgs boson h⁰ -- which is an accessible decay mode across the whole MSSM parameter space -- is generally higher than the decay into glue, t->c g, even though the latter can also be considerably augmented in the MSSM. Our general conclusion is that the Higgs channel t->c h⁰ can be the ``gold-plated'' top quark FCNC decay mode in the MSSM with rates that can reach 10^-4, i.e. already at the visible level for both LHC and LC.

13. J. A. Coarasa, Jaume Guasch, Joan Solà, Radiative corrections to top quark decay into charged Higgs at the Tevatron, UAB-FT-451, hep-ph/9903212 (source, ps). (Spires). Talk presented at the IVth International Symposium on Radiative Corrections (RADCOR 98), Barcelona, Catalonia (Spain), 8-12 September 1998. Proceedings, Radiative Corrections (Application of Quantum Field Theory to Phenomenology) (ISBN 981-02-3901-7), p. 377, World Scientific 1999, ed. Joan Solà.
    

    We present the computation of the leading one-loop electroweak radiative corrections to the non-standard top quark decay width Gamma(t->H⁺ b), using a physically motivated definition of tan(beta). We find that the corrections are large, both in the Minimal Supersymmetric Standard Model (MSSM) and the Two-Higgs-Doublet Model (2HDM). These corrections have an important effect on the interpretation of the Tevatron data, leading to the non-existence of a model-independent bound in the tan(beta)-M_H⁺ plane.

14. J. A. Coarasa, Jaume Guasch, Joan Solà Gamma(H⁺ -> t anti-b) in the MSSM: a handle for SUSY charged Higgs at the Tevatron and the LHC, UAB-FT-452, hep-ph/9903213 (source, ps). (Spires). Talk presented at the IVth International Symposium on Radiative Corrections (RADCOR 98), Barcelona, Catalonia (Spain), 8-12 September 1998. Proceedings, Radiative Corrections (Application of Quantum Field Theory to Phenomenology) (ISBN 981-02-3901-7), p. 498, World Scientific 1999, ed. Joan Solà.
    

    We compute Gamma(H⁺ -> t anti-b) at one-loop in the MSSM and show how future data at the Tevatron and/or at the LHC could be used to unravel the potential SUSY nature of the charged Higgs.

15. Ph. D. Thesis. Supersymmetric radiative corrections to top quark and Higgs boson physics.
    Date: January 18th 1999.
    Advisor: Prof. Joan Solà.
    Published by Universitat Autònoma de Barcelona ISBN: 84-490-1544-8.
    • Summary (2p.): English (ps, pdf), Catalan (ps, pdf).
    • Table of contents (ps, pdf).
    • Thesis (182 p.): English (ps 678k, pdf 1.8M).
    • Also available as hep-ph/9906517 (source, ps) (Spires) (116p. due to smaller fonts and other space optimizations).
    
    
16. Jaume Guasch, FCNC top decays into Higgs bosons in the MSSM, UAB-FT-427, hep-ph/9710267 (source, ps). (Spires). Talk presented at the International Workshop on Quantum Effects in the MSSM, Barcelona, Catalonia (Spain), 9-13 September 1997. Proceedings, Quantum Effects in the MSSM (ISBN 981-02-3450-3), p. 256, World Scientific 1998, ed. Joan Solà.
    

    We compute the partial width of the FCNC top quark decay t -> c h in the framework of the Minimal Supersymmetric Standard Model, where h=h⁰,H⁰,A⁰ is any of the neutral Higgs of the MSSM. We include the SUSY electroweak, Higgs, and SUSY-QCD contributions. Our results substantially improve previous estimations on the subject, and we find that there is a possibility that they can be measured at LHC.