Your search keyword '"de Austri, Roberto Ruiz"' showing total 385 results

51. Model-independent combination of diphoton constraints at 750 GeV

Author

Kim, Jong Soo, Rolbiecki, Krzysztof, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

Motivated by the recent diphoton excess reported by both the ATLAS and CMS collaborations, we provide a model-independent combination of diphoton results obtained at $\sqrt{s}=8$ and 13 TeV at the LHC. We consider resonant s-channel production of a spin-0 and spin-2 particle with a mass of 750 GeV that subsequently decays to two photons. The size of the excess reported by ATLAS appears to be in slight tension with other measurements under the spin-2 particle hypothesis., Comment: 14 pages, 6 figures, improved text, validation information added; to appear in EPJC

Published

2015

52. Global analysis of the pMSSM in light of the Fermi GeV excess: prospects for the LHC Run-II and astroparticle experiments

Author

Bertone, Gianfranco, Calore, Francesca, Caron, Sascha, de Austri, Roberto Ruiz, Kim, Jong Soo, Trotta, Roberto, and Weniger, Christoph

Subjects

High Energy Physics - Phenomenology

Abstract

We present a new global fit of the 19-dimensional phenomenological Minimal Supersymmetric Standard Model (pMSSM-19) that comply with all the latest experimental results from dark matter indirect, direct and accelerator dark matter searches. We show that the model provides a satisfactory explanation of the excess of gamma-rays from the Galactic centre observed by the Fermi~Large Area Telescope, assuming that it is produced by the annihilation of neutralinos in the Milky Way halo. We identify two regions that pass all the constraints: the first corresponds to neutralinos with a mass ~80-100 GeV annihilating into WW with a branching ratio of 95% ; the second to heavier neutralinos, with mass ~180-200 GeV annihilating into t tbar with a branching ratio of 87%. We show that neutralinos compatible with the Galactic centre GeV excess will soon be within the reach of LHC run-II -- notably through searches for charginos and neutralinos, squarks and light smuons -- and of Xenon1T, thanks to its unprecedented sensitivity to spin-dependent cross-section off neutrons., Comment: Minor changes following referee reports. Main conclusions unchanged. Matches version published in JCAP

Published

2015

53. A description of the Galactic Center excess in the Minimal Supersymmetric Standard Model

Author

Achterberg, Abraham, Amoroso, Simone, Caron, Sascha, Hendriks, Luc, de Austri, Roberto Ruiz, and Weniger, Christoph

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Experiment

Abstract

Observations with the Fermi Large Area Telescope (LAT) indicate an excess in gamma rays originating from the center of our Galaxy. A possible explanation for this excess is the annihilation of Dark Matter particles. We have investigated the annihilation of neutralinos as Dark Matter candidates within the phenomenological Minimal Supersymmetric Standard Model (pMSSM). An iterative particle filter approach was used to search for solutions within the pMSSM. We found solutions that are consistent with astroparticle physics and collider experiments, and provide a fit to the energy spectrum of the excess. The neutralino is a Bino/Higgsino or Bino/Wino/Higgsino mixture with a mass in the range $84-92$~GeV or $87-97$~GeV annihilating into W bosons. A third solutions is found for a neutralino of mass $174-187$~GeV annihilating into top quarks. The best solutions yield a Dark Matter relic density $0.06 < \Omega h^2 <0.13$. These pMSSM solutions make clear forecasts for LHC, direct and indirect DM detection experiments. If the MSSM explanation of the excess seen by Fermi-LAT is correct, a DM signal might be discovered soon., Comment: Large extension of previous paper: 2 more solutions found in the MSSM (Bino-Higgsino, Bino-Wino-Higgsino into WW and Bino into ttbar), added description on extra fit uncertainties, added description on flavor observables, added discussion on dwarf limits

Published

2015

54. Probing the $\mu\nu$SSM with light scalars, pseudoscalars and neutralinos from the decay of a SM-like Higgs boson at the LHC

Author

Ghosh, Pradipta, Lopez-Fogliani, Daniel E., Mitsou, Vasiliki A., Munoz, Carlos, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

The "$\mu$ from $\nu$" supersymmetric standard model ($\mu\nu$SSM) can accommodate the newly discovered Higgs-like scalar boson with a mass around 125 GeV. This model provides a solution to the $\mu$-problem and simultaneously reproduces correct neutrino physics by the simple use of right-handed neutrino superfields. These new superfields together with the introduced $R$-parity violation can produce novel and characteristic signatures of the $\mu\nu$SSM at the LHC. We explore the signatures produced through two-body Higgs decays into the new states, provided that these states lie below in the mass spectrum. For example, a pair produced light neutralinos depending on the associated decay length can give rise to displaced multi-leptons/taus/jets/photons with small/moderate missing transverse energy. In the same spirit, a Higgs-like scalar decaying to a pair of scalars/pseudoscalars can produce final states with prompt multi-leptons/taus/jets/photons., Comment: 58 pages, 3 figures, three new references added, matches with the published version in JHEP

Published

2014

55. Hunting physics beyond the standard model with unusual $W^\pm$ and $Z$ decays

Author

Ghosh, Pradipta, Lopez-Fogliani, Daniel E., Mitsou, Vasiliki A., Munoz, Carlos, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

Nonstandard on-shell decays of $W^\pm$ and $Z$ bosons are possible within the framework of extended supersymmetric models, i.e., with singlet states and/or new couplings compared to the minimal supersymmetric standard model. These modes are typically encountered in regions of the parameter space with light singlet-like scalars, pseudoscalars, and neutralinos. In this letter we emphasize how these states can lead to novel signals at colliders from $Z$- or $W^\pm$-boson decays with prompt or displaced multileptons/tau jets/jets/photons in the final states. These new modes would give distinct evidence of new physics even when direct searches remain unsuccessful. We discuss the possibilities of probing these new signals using the existing LHC run-I data set. We also address the same in the context of the LHC run-II, as well as for the future colliders. We exemplify our observations with the "$\mu$ from $\nu$" supersymmetric standard model, where three generations of right-handed neutrino superfields are used to solve shortcomings of the minimal supersymmetric standard model. We also extend our discussion for other variants of supersymmetric models that can accommodate similar signatures., Comment: New discussions and references added, 8 pages, 1 figure, matches with the published version in Phys. Rev. D

Published

2014

56. LHC and dark matter phenomenology of the NUGHM

Author

Cabrera, Maria Eugenia, Casas, Alberto, de Austri, Roberto Ruiz, and Bertone, Gianfranco

Subjects

High Energy Physics - Phenomenology

Abstract

We present a Bayesian analysis of the NUGHM, a supersymmetric scenario with non-universal gaugino masses and Higgs masses, including all the relevant experimental observables and dark matter constraints. The main merit of the NUGHM is that it essentially includes all the possibilities for dark matter (DM) candidates within the MSSM, since the neutralino and chargino spectrum -and composition- are as free as they can be in the general MSSM. We identify the most probable regions in the NUHGM parameter space, and study the associated phenomenology at the LHC and the prospects for DM direct detection. Requiring that the neutralino makes all of the DM in the Universe, we identify two preferred regions around $m_{\chi_1^0}= 1\ {\rm TeV},\; 3\ {\rm TeV}$, which correspond to the (almost) pure Higgsino and wino case. There exist other marginal regions (e.g. Higgs-funnel), but with much less statistical weight. The prospects for detection at the LHC in this case are quite pessimistic, but future direct detection experiments like LUX and XENON1T, will be able to probe this scenario. In contrast, when allowing other DM components, the prospects for detection at the LHC become more encouraging -- the most promising signals being, beside the production of gluinos and squarks, the production of the heavier chargino and neutralino states, which lead to WZ and same-sign WW final states -- and direct detection remains a complementary, and even more powerful, way to probe the scenario., Comment: The Sommerfeld enhancement has been included in the computation of the relic density and in the discussion of indirect-detection limits. Some references have been added

Published

2013

57. The health of SUSY after the Higgs discovery and the XENON100 data

Author

Cabrera, Maria Eugenia, Casas, J. Alberto, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

We analyze the implications for the status and prospects of supersymmetry of the Higgs discovery and the last XENON data. We focus mainly, but not only, on the CMSSM and NUHM models. Using a Bayesian approach we determine the distribution of probability in the parameter space of these scenarios. This shows that, most probably, they are now beyond the LHC reach . This negative chances increase further (at more than 95% c.l.) if one includes dark matter constraints in the analysis, in particular the last XENON100 data. However, the models would be probed completely by XENON1T. The mass of the LSP neutralino gets essentially fixed around 1 TeV. We do not incorporate ad hoc measures of the fine-tuning to penalize unnatural possibilities: such penalization arises automatically from the careful Bayesian analysis itself, and allows to scan the whole parameter space. In this way, we can explain and resolve the apparent discrepancies between the previous results in the literature. Although SUSY has become hard to detect at LHC, this does not necessarily mean that is very fine-tuned. We use Bayesian techniques to show the experimental Higgs mass is at $\sim 2\ \sigma$ off the CMSSM or NUHM expectation. This is substantial but not dramatic. Although the CMSSM or the NUHM are unlikely to show up at the LHC, they are still interesting and plausible models after the Higgs observation; and, if they are true, the chances of discovering them in future dark matter experiments are quite high.

Published

2012

58. Probing the '$\mu$ from $\nu$' supersymmetric standard model with displaced multileptons from the decay of a Higgs boson at the LHC

Author

Ghosh, Pradipta, Lopez-Fogliani, Daniel E., Mitsou, Vasiliki A., Munoz, Carlos, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

The "$\mu$ from $\nu$" supersymmetric standard model ($\mu\nu$SSM) cures the $\mu$-problem and concurrently reproduces measured neutrino data by using a set of usual right-handed neutrino superfields. Recently, the LHC has revealed the first scalar boson which naturally makes it tempting to test $\mu\nu$SSM in the light of this new discovery. We show that this new scalar while decaying to a pair of unstable long-lived neutralinos, can lead to a distinct signal with non-prompt multileptons. With concomitant collider analysis we show that this signal provides an unmistakable signature of the model, pronounced with light neutralinos. Evidence of this signal is well envisaged with sophisticated displaced vertex analysis, which deserves experimental attention., Comment: 5 pages, 3 figures, title, text, abstract and references modified

Published

2012

59. Dark Matter Searches: The Nightmare Scenario

Author

Bertone, Gianfranco, Cumberbatch, Daniel, de Austri, Roberto Ruiz, and Trotta, Roberto

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

The unfortunate case where the Large Hadron Collider (LHC) fails to discover physics Beyond the Standard Model (BSM) is sometimes referred to as the "Nightmare scenario" of particle physics. We study the consequences of this hypothetical scenario for Dark Matter (DM), in the framework of the constrained Minimal Supersymmetric Standard Model (cMSSM). We evaluate the surviving regions of the cMSSM parameter space after null searches at the LHC, using several different LHC configurations, and study the consequences for DM searches with ton-scale direct detectors and the IceCube neutrino telescope. We demonstrate that ton-scale direct detection experiments will be able to conclusively probe the cMSSM parameter space that would survive null searches at the LHC with 100fb$^{-1}$ of integrated luminosity at 14TeV. We also demonstrate that IceCube (80 strings plus DeepCore) will be able to probe as much as 17% of the currently favoured parameter space after 5 years of observation., Comment: V2: 24 pages, 6 figures, 4 tables. Replaced to match version published in JCAP. Minor revisions made to address referee's comments

Published

2011

60. The Higgs sector of the munuSSM and collider physics

Author

Fidalgo, Javier, Lopez-Fogliani, Daniel E., Munoz, Carlos, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

The $\mu\nu$SSM is a supersymmetric standard model that accounts for light neutrino masses and solves the $\mu$ problem of the MSSM by simply using right-handed neutrino superfields. Since this mechanism breaks R-parity, a peculiar structure for the mass matrices is generated. The neutral Higgses are mixed with the right- and left-handed sneutrinos producing 8$\times$8 neutral scalar mass matrices. We analyse the Higgs sector of the $\mu\nu$SSM in detail, with special emphasis in possible signals at colliders. After studying in general the decays of the Higges, we focus on those processes that are genuine of the $\mu\nu$SSM, and could serve to distinguish it from other supersymmetric models. In particular, we present viable benchmark points for LHC searches. For example, we find decays of a MSSM-like Higgs into two lightest neutralinos, with the latter decaying inside the detector leading to displaced vertices, and producing final states with 4 and 8 $b$-jets plus missing energy. Final states with leptons and missing energy are also found., Comment: Final version to appear in JHEP. The discussion on signals at colliders, expanded. 33 pages, 8 figures and 9 tables

Published

2011

61. Is light neutralino as dark matter still viable?

Author

Cumberbatch, Daniel T., López-Fogliani, Daniel E., Roszkowski, Leszek, de Austri, Roberto Ruiz, and Tsai, Yue-Lin S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

Motivated by the recent re-confirmation by CoGENT of the low-energy excess of events observed last year, and the recent improved limits from the XENON-100 experiment that are in contention with the CoGENT data, we re-examine the low mass neutralino region of the Minimal Supersymmetric Standard Model and of the Next-to-Minimal Supersymmetric Standard Model, both without assuming gaugino mass unification. We make several focused scans for each model, determining conservative constraints on input parameters. We then determine how these constraints are made increasingly stringent as we re-invoke our experimental constraints involving the dark matter relic abundance, collider constraints from LEP and the Tevatron, and then from flavour physics, as a series of successive 2 sigma hard cuts. We find that for both models, when all relevant constraints are applied in this fashion, we do not generate neutralino LSPs that possess a spin-independent scattering cross section in excess of 10^-5 pb and a mass ~7 GeV < m_chi < ~9 GeV that is necessary in order to explain the CoGENT observations., Comment: 16 pages, 7 figures, 3 tables

Published

2011

62. Next-to-Minimal Supersymmetric Model Higgs Scenarios for Partially Universal GUT Scale Boundary Conditions

Author

Gunion, John F., López-Fogliani, Daniel E., Roszkowski, Leszek, de Austri, Roberto Ruiz, and Varley, Tom A.

Subjects

High Energy Physics - Phenomenology

Abstract

We examine the extent to which it is possible to realize the NMSSM "ideal Higgs" models espoused in several papers by Gunion et al in the context of partially universal GUT scale boundary conditions. To this end we use the powerful methodology of nested sampling. We pay particular attention to whether ideal-Higgs-like points not only pass LEP constraints but are also acceptable in terms of the numerous constraints now available, including those from the Tevatron and $B$-factory data, $(g-2)_\mu$ and the relic density $\Omega h^2$. In general for this particular methodology and range of parameters chosen, very few points corresponding to said previous studies were found, and those that were found were at best $2\sigma$ away from the preferred relic density value. Instead, there exist a class of points, which combine a mostly singlet-like Higgs with a mostly singlino-like neutralino coannihilating with the lightest stau, that are able to effectively pass all implemented constraints in the region $80

Published

2011

63. Complementarity of Dark Matter Direct Detection Targets

Author

Pato, Miguel, Baudis, Laura, Bertone, Gianfranco, de Austri, Roberto Ruiz, Strigari, Louis E., and Trotta, Roberto

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

We investigate the reconstruction capabilities of Dark Matter mass and spin-independent cross-section from future ton-scale direct detection experiments using germanium, xenon or argon as targets. Adopting realistic values for the exposure, energy threshold and resolution of Dark Matter experiments which will come online within 5 to 10 years, the degree of complementarity between different targets is quantified. We investigate how the uncertainty in the astrophysical parameters controlling the local Dark Matter density and velocity distribution affects the reconstruction. For a 50 GeV WIMP, astrophysical uncertainties degrade the accuracy in the mass reconstruction by up to a factor of $\sim 4$ for xenon and germanium, compared to the case when astrophysical quantities are fixed. However, combination of argon, germanium and xenon data increases the constraining power by a factor of $\sim 2$ compared to germanium or xenon alone. We show that future direct detection experiments can achieve self-calibration of some astrophysical parameters, and they will be able to constrain the WIMP mass with only very weak external astrophysical constraints., Comment: 11 pages, 5 figures, 4 tables, matches published version

Published

2010

64. Quantifying the tension between the Higgs mass and (g-2)_mu in the CMSSM

Author

Cabrera, Maria Eugenia, Casas, J. Alberto, de Austri, Roberto Ruiz, and Trotta, Roberto

Subjects

High Energy Physics - Phenomenology

Abstract

Supersymmetry has been often invoqued as the new physics that might reconcile the experimental muon magnetic anomaly, a_mu, with the theoretical prediction (basing the computation of the hadronic contribution on e^+ e^- data). However, in the context of the CMSSM, the required supersymmetric contributions (which grow with decreasing supersymmetric masses) are in potential tension with a possibly large Higgs mass (which requires large stop masses). In the limit of very large m_h supersymmetry gets decoupled, and the CMSSM must show the same discrepancy as the SM with a_mu . But it is much less clear for which size of m_h does the tension start to be unbearable. In this paper, we quantify this tension with the help of Bayesian techniques. We find that for m_h > 125 GeV the maximum level of discrepancy given current data (~ 3.3 sigma) is already achieved. Requiring less than 3 sigma discrepancy, implies m_h < 120 GeV. For a larger Higgs mass we should give up either the CMSSM model or the computation of a_mu based on e^+ e^-; or accept living with such inconsistency.

Published

2010

65. Fair scans of the seesaw. Consequences for predictions on LFV processes

Author

Casas, J. Alberto, Moreno, Jesus M., Rius, Nuria, de Austri, Roberto Ruiz, and Zaldivar, Bryan

Subjects

High Energy Physics - Phenomenology

Abstract

Usual analyses based on scans of the seesaw parameter-space can be biassed since they do not cover in a fair way the complete parameter-space. More precisely, we show that in the common "R-parametrization", many acceptable R-matrices, compatible with the perturbativity of Yukawa couplings, are normally disregarded from the beginning, which produces biasses in the results. We give a straightforward procedure to scan the space of complex R-matrices in a complete way, giving a very simple rule to incorporate the perturbativity requirement as a condition for the entries of the R-matrix, something not considered before. As a relevant application of this, we show that the extended believe that BR(mu --> e, gamma) in supersymmetric seesaw models depends strongly on the value of theta_13 is an "optical effect" produced by such biassed scans, and does not hold after a careful analytical and numerical study. When the complete scan is done, BR(mu --> e, gamma) gets very insensitive to theta_13. Moreover, the values of the branching ratio are typically larger than those quoted in the literature, due to the large number of acceptable points in the parameter-space which were not considered before. Including (unflavoured) leptogenesis does not introduce any further dependence on theta_13, although decreases the typical value of BR(mu --> e, gamma)., Comment: 22 pages, 5 figures

Published

2010

66. Global fits of the Minimal Universal Extra Dimensions scenario

Author

Bertone, Gianfranco, Kong, Kyoungchul, de Austri, Roberto Ruiz, and Trotta, Roberto

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

In theories with Universal Extra-Dimensions (UED), the gamma_1 particle, first excited state of the hypercharge gauge boson, provides an excellent Dark Matter (DM) candidate. Here we use a modified version of the SuperBayeS code to perform a Bayesian analysis of the minimal UED scenario, in order to assess its detectability at accelerators and with DM experiments. We derive in particular the most probable range of mass and scattering cross sections off nucleons, keeping into account cosmological and electroweak precision constraints. The consequences for the detectability of the gamma_1 with direct and indirect experiments are dramatic. The spin-independent cross section probability distribution peaks at ~ 10^{-11} pb, i.e. below the sensitivity of ton-scale experiments. The spin-dependent cross-section drives the predicted neutrino flux from the center of the Sun below the reach of present and upcoming experiments. The only strategy that remains open appears to be direct detection with ton-scale experiments sensitive to spin-dependent cross-sections. On the other hand, the LHC with 1 1/fb of data should be able to probe the current best-fit UED parameters., Comment: 15 pages, 11 figures; minor quantitative differences wrt v1 due to the correction of a numerical problem, main results unchanged

Published

2010

67. Identification of Dark Matter particles with LHC and direct detection data

Author

Bertone, Gianfranco, Cerdeno, David G., Fornasa, Mattia, de Austri, Roberto Ruiz, and Trotta, Roberto

Subjects

High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Dark matter (DM) is currently searched for with a variety of detection strategies. Accelerator searches are particularly promising, but even if Weakly Interacting Massive Particles (WIMPs) are found at the Large Hadron Collider (LHC), it will be difficult to prove that they constitute the bulk of the DM in the Universe. We show that a significantly better reconstruction of the DM properties can be obtained with a combined analysis of LHC and direct detection (DD) data, by making a simple Ansatz on the WIMP local density, i.e. by assuming that the local density scales with the cosmological relic abundance. We demonstrate this method in an explicit example in the context of a 24-parameter supersymmetric model, with a neutralino LSP in the stau co-annihilation region. Our results show that future ton-scale DD experiments will allow to break degeneracies in the SUSY parameter space and achieve a significantly better reconstruction of the neutralino composition and its relic density than with LHC data alone., Comment: 7 pages, 2 figures, comments: replaced with the journal version

Published

2010

68. The degenerate gravitino scenario

Author

Boubekeur, Lotfi, Choi, Ki Young, de Austri, Roberto Ruiz, and Vives, Oscar

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Extragalactic Astrophysics, High Energy Physics - Theory

Abstract

In this work, we explore the "degenerate gravitino" scenario where the mass difference between the gravitino and the lightest MSSM particle is much smaller than the gravitino mass itself. In this case, the energy released in the decay of the next to lightest sypersymmetric particle (NLSP) is reduced. Consequently the cosmological and astrophysical constraints on the gravitino abundance, and hence on the reheating temperature, become softer than in the usual case. On the other hand, such small mass splittings generically imply a much longer lifetime for the NLSP. We find that, in the constrained MSSM (CMSSM), for neutralino LSP or NLSP, reheating temperatures compatible with thermal leptogenesis are reached for small splittings of order 10^{-2} GeV. While for stau NLSP, temperatures of 4x10^9 GeV can be obtained even for splittings of order of tens of GeVs. This "degenerate gravitino" scenario offers a possible way out to the gravitino problem for thermal leptogenesis in supersymmetric theories., Comment: 27 pages, 10 figures and 1 table. Minor typos and references fixed. Matches published version in JCAP.

Published

2010

69. MSSM Forecast for the LHC

Author

Cabrera, Maria Eugenia, Casas, Alberto, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

We perform a forecast of the MSSM with universal soft terms (CMSSM) for the LHC, based on an improved Bayesian analysis. We do not incorporate ad hoc measures of the fine-tuning to penalize unnatural possibilities: such penalization arises from the Bayesian analysis itself when the experimental value of $M_Z$ is considered. This allows to scan the whole parameter space, allowing arbitrarily large soft terms. Still the low-energy region is statistically favoured (even before including dark matter or g-2 constraints). Contrary to other studies, the results are almost unaffected by changing the upper limits taken for the soft terms. The results are also remarkable stable when using flat or logarithmic priors, a fact that arises from the larger statistical weight of the low-energy region in both cases. Then we incorporate all the important experimental constrains to the analysis, obtaining a map of the probability density of the MSSM parameter space, i.e. the forecast of the MSSM. Since not all the experimental information is equally robust, we perform separate analyses depending on the group of observables used. When only the most robust ones are used, the favoured region of the parameter space contains a significant portion outside the LHC reach. This effect gets reinforced if the Higgs mass is not close to its present experimental limit and persits when dark matter constraints are included. Only when the g-2 constraint (based on $e^+e^-$ data) is considered, the preferred region (for $\mu>0$) is well inside the LHC scope. We also perform a Bayesian comparison of the positive- and negative-$\mu$ possibilities., Comment: 42 pages: added figures and references

Published

2009

70. A Bayesian Analysis of the Constrained NMSSM

Author

Lopez-Fogliani, Daniel E., Roszkowski, Leszek, de Austri, Roberto Ruiz, and Varley, Tom A.

Subjects

High Energy Physics - Phenomenology

Abstract

We perform a first global exploration of the Constrained Next-to-Minimal Supersymmetric Standard Model using Bayesian statistics. We derive several global features of the model and find that, in some contrast to initial expectations, they closely resemble the Constrained MSSM. This remains true even away from the decoupling limit which is nevertheless strongly preferred. We present ensuing implications for several key observables, including collider signatures and predictions for direct detection of dark matter.

Published

2009

71. Gamma-ray detection from gravitino dark matter decay in the $\mu\nu$SSM

Author

Choi, Ki-Young, Lopez-Fogliani, Daniel E., Munoz, Carlos, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena

Abstract

The $\mu\nu$SSM provides a solution to the $\mu$-problem of the MSSM and explains the origin of neutrino masses by simply using right-handed neutrino superfields. Given that R-parity is broken in this model, the gravitino is a natural candidate for dark matter since its lifetime becomes much longer than the age of the Universe. We consider the implications of gravitino dark matter in the $\mu\nu$SSM, analyzing in particular the prospects for detecting gamma rays from decaying gravitinos. If the gravitino explains the whole dark matter component, a gravitino mass larger than 20 GeV is disfavored by the isotropic diffuse photon background measurements. On the other hand, a gravitino with a mass range between 0.1-20 GeV gives rise to a signal that might be observed by the FERMI satellite. In this way important regions of the parameter space of the $\mu\nu$SSM can be checked., Comment: Final version to appear in JCAP, 13 pages, 3 figures

Published

2009

72. Combining outlier analysis algorithms to identify new physics at the LHC

Author

van Beekveld, Melissa, Caron, Sascha, Hendriks, Luc, Jackson, Paul, Leinweber, Adam, Otten, Sydney, Patrick, Riley, de Austri, Roberto Ruiz, Santoni, Marco, and White, Martin

Published

2021

73. New energy spectra in neutrino and photon detectors to reveal hidden dark matter signals

Author

Beenakker, Wim, primary, Caron, Sascha, additional, Kip, Jochem, additional, de Austri, Roberto Ruiz, additional, and Zhang, Zhongyi, additional

Published

2023

74. Determining Reheating Temperature at LHC with Axino or Gravitino Dark Matter

Author

Choi, Ki-Young, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

After a period of inflationary expansion, the Universe reheated and reached full thermal equilibrium at the reheating temperature. In this talk, based on the paper, arXiv:0710.3349, we point out that, in the context of effective low-energy supersymmetric models, LHC measurements may allow one to determine reheating temperature as a function of the mass of the dark matter particle assumed to be either an axino or a gravitino. An upper bound on their mass and on the reheating temperature may also be derived., Comment: 6 pages, 8 figures, Submitted for the DSU proceedings to be published by the American institute of Physics (AIP)

Published

2008

75. Analysis of the parameter space and spectrum of the $\mu \nu$SSM

Author

Escudero, Nicolas, Lopez-Fogliani, Daniel E., Munoz, Carlos, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

The $\mu\nu$SSM is a supersymmetric standard model that solves the $\mu$ problem of the MSSM using the R-parity breaking couplings between the right-handed neutrino superfields and the Higgses in the superpotential, $\lambda_{i} \hat \nu^c_i \hat H_d \hat H_u$. The $\mu$ term is generated spontaneously through sneutrino vacuum expectation values, $\mu=\lambda_i < \tilde \nu^c_i>$, once the electroweak symmetry is broken. In addition, the couplings $\kappa_{ijk} \hat \nu^c_i\hat \nu^c_j\hat \nu^c_k$ forbid a global U(1) symmetry avoiding the existence of a Goldstone boson, and also contribute to spontaneously generate Majorana masses for neutrinos at the electroweak scale. Following this proposal, we have analysed in detail the parameter space of the $\mu\nu$SSM. In particular, we have studied viable regions avoiding false minima and tachyons, as well as fulfilling the Landau pole constraint. We have also computed the associated spectrum, paying special attention to the mass of the lightest Higgs. The presence of right and left-handed sneutrino vacuum expectation values leads to a peculiar structure for the mass matrices. The most important consequence is that neutralinos are mixed with neutrinos, and neutral Higgses with sneutrinos., Comment: Final version accepted in JHEP. 38 pages, 12 figures

Published

2008

76. Determining Reheating Temperature at Colliders with Axino or Gravitino Dark Matter

Author

Choi, Ki-Young, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

After a period of inflationary expansion, the Universe reheated and reached full thermal equilibrium at the reheating temperature T_R. In this work we point out that, in the context of effective low-energy supersymmetric models, LHC measurements may allow one to determine T_R as a function of the mass of the dark matter particle assumed to be either an axino or a gravitino. An upper bound on their mass may also be derived., Comment: 19 pages, some improvements, JHEP version

Published

2007

77. On prospects for dark matter indirect detection in the Constrained MSSM

Author

Roszkowski, Leszek, de Austri, Roberto Ruiz, Silk, Joe, and Trotta, Roberto

Subjects

Astrophysics, High Energy Physics - Phenomenology

Abstract

In the framework of the Constrained MSSM we derive the most probable ranges of the diffuse gamma radiation flux from the direction of the Galactic center and of the positron flux from the Galactic halo due to neutralino dark matter annihilation. We find that, for a given halo model, and assuming flat priors, the 68% probability range of the integrated gamma-ray flux spans about one order of magnitude, while the 95% probability range can be much larger and extend over four orders of magnitude (even exceeding five for a tiny region at small neutralino mass). The detectability of the signal by GLAST depending primarily on the cuspiness of the halo profile. The positron flux, on the other hand, appears to be too small to be detectable by PAMELA, unless the boost factor is at least of order ten and/or the halo profile is extremely cuspy. We also briefly discuss the sensitivity of our results to the choice of priors., Comment: final PLB version, discussion of prior dependence added, paper based on a new software tool SuperBayeS (available from http://superbayes.org)

Published

2007

78. Implications for the Constrained MSSM from a new prediction for b to s gamma

Author

Roszkowski, Leszek, de Austri, Roberto Ruiz, and Trotta, Roberto

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

We re-examine the properties of the Constrained MSSM in light of updated constraints, paying particular attention to the impact of the recent substantial shift in the Standard Model prediction for BR(B to X_s gamma). With the help of a Markov Chain Monte Carlo scanning technique, we vary all relevant parameters simultaneously and derive Bayesian posterior probability maps. We find that the case of \mu>0 remains favored, and that for \mu<0 it is considerably more difficult to find a good global fit to current constraints. In both cases we find a strong preference for a focus point region. This leads to improved prospects for detecting neutralino dark matter in direct searches, while superpartner searches at the LHC become more problematic, especially when \mu<0. In contrast, prospects for exploring the whole mass range of the lightest Higgs boson at the Tevatron and the LHC remain very good, which should, along with dark matter searches, allow one to gain access to the otherwise experimentally challenging focus point region. An alternative measure of the mean quality-of-fit which we also employ implies that present data are not yet constraining enough to draw more definite conclusions. We also comment on the dependence of our results on the choice of priors and on some other assumptions., Comment: JHEP version

Published

2007

79. On the detectability of the CMSSM light Higgs boson at the Tevatron

Author

Roszkowski, Leszek, de Austri, Roberto Ruiz, and Trotta, Roberto

Subjects

High Energy Physics - Phenomenology

Abstract

We examine the prospects of detecting the light Higgs h^0 of the Constrained MSSM at the Tevatron. To this end we explore the CMSSM parameter space with \mu>0, using a Markov Chain Monte Carlo technique, and apply all relevant collider and cosmological constraints including their uncertainties, as well as those of the Standard Model parameters. Taking 50 GeV < m_{1/2}, m_0 < 4 TeV, |A_0| < 7 TeV and 2 < tan(beta) < 62 as flat priors and using the formalism of Bayesian statistics we find that the 68% posterior probability region for the h^0 mass lies between 115.4 GeV and 120.4 GeV. Otherwise, h^0 is very similar to the Standard Model Higgs boson. Nevertheless, we point out some enhancements in its couplings to bottom and tau pairs, ranging from a few per cent in most of the CMSSM parameter space, up to several per cent in the favored region of tan(beta)\sim 50 and the pseudoscalar Higgs mass of m_A\lsim 1 TeV. We also find that the other Higgs bosons are typically heavier, although not necessarily much heavier. For values of the h^0 mass within the 95% probability range as determined by our analysis, a 95% CL exclusion limit can be set with about 2/fb of integrated luminosity per experiment, or else with 4/fb (12/fb) a 3 sigma evidence (5 sigma discovery) will be guaranteed. We also emphasize that the alternative statistical measure of the mean quality-of-fit favors a somewhat lower Higgs mass range; this implies even more optimistic prospects for the CMSSM light Higgs search than the more conservative Bayesian approach. In conclusion, for the above CMSSM parameter ranges, especially m_0, either some evidence will be found at the Tevatron for the light Higgs boson or, at a high confidence level, the CMSSM will be ruled out., Comment: JHEP version

Published

2006

80. Prospects for direct dark matter detection in the Constrained MSSM

Author

Trotta, Roberto, de Austri, Roberto Ruiz, and Roszkowski, Leszek

Subjects

Astrophysics

Abstract

We outline the WIMP dark matter parameter space in the Constrained MSSM by performing a comprehensive statistical analysis that compares with experimental data predicted superpartner masses and other collider observables as well as a cold dark matter abundance. We include uncertainties arising from theoretical approximations as well as from residual experimental errors on relevant Standard Model parameters. We present high-probability regions for neutralino dark matter direct detection cross section, and we find that 10^-10 pb < sigma_p^SI < 10^-8 for direct WIMP detection (with details slightly dependent on the assumptions made). We highlight a complementarity between LHC and WIMP dark matter searches in exploring the CMSSM parameter space. We conclude that most of the 95% probability region for the cross section will be explored by future one-tonne detectors, that will therefore cover most of the currently favoured region of parameter space., Comment: 5 pages, 3 figures. Contribution to the proceedings of the Francesco Melchiorri Memorial conference, Rome, April 2006

Published

2006

81. A Markov Chain Monte Carlo Analysis of the CMSSM

Author

de Austri, Roberto Ruiz, Trotta, Roberto, and Roszkowski, Leszek

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

We perform a comprehensive exploration of the Constrained MSSM parameters using a Markov Chain Monte Carlo technique and a Bayesian analysis. We compute superpartner masses and other collider observables as well as a cold dark matter abundance, and compare them with experimental data. We include uncertainties arising from theoretical approximations as well as from residual experimental errors on relevant SM parameters. We delineate probability distributions of the CMSSM parameters, the collider and cosmological observables as well as a dark matter direct detection cross section. The 68% probability intervals of the CMSSM parameters are: 0.52 TeV < m_{1/2} < 1.26 TeV, m_0 <2.10 TeV, -0.34 TeV < A_0 < 2.41 TeV and 38.5< tan(beta) <54.6. Generally, large fractions of high probability ranges of the superpartner masses will be probed at the LHC. We highlight a complementarity between LHC and WIMP dark matter searches in exploring the CMSSM parameter space. We further expose a number of correlations among the observables, in particular between BR(B_s \to \mu^+ \mu^-) and BR({\bar B}\to X_s\gamma) or sigma_p^{SI}. Once SUSY is discovered, this and other correlations may prove helpful in distinguishing the CMSSM from other supersymmetric models. The robustness of our results is investigated in terms of the assumed ranges of CMSSM parameters and the effect of the (g-2)_mu anomaly which shows some tension with the other observables. We find that the results for m_0, and the observables which strongly depend on it, are sensitive to our assumptions, while our conclusions for the other variables are robust., Comment: 52 pages, 18 PS figures, published version, minor corrections

Published

2006

82. Solving the Cosmic Lithium Problems with Gravitino Dark Matter in the CMSSM

Author

Jedamzik, Karsten, Choi, Ki-Young, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

Standard Big Bang nucleosynthesis at baryonic density as inferred by WMAP implies a primordial Li7 abundance factor of two to three larger than that inferred by observations of low--metallicity halo stars. Recent observations of Li6 in halo stars suggest a pre--galactic origin of this isotope, which is exceedingly difficult to explain by putative high redshift cosmic ray populations. We investigate if one or both of these lithium problems may be solved by late decaying relic particles in the Constrained Minimal Supersymmetric Standard Model (CMSSM) coupled to gravity. Assuming that the gravitino is the lightest supersymmetric particle (LSP) we find that in large parts of the CMSSM parameter space either of these problems can be potentially solved. In particular, we also find solutions where both lithium problems may be solved simultaneously. These entail the hadronic decay of relic 1 TeV staus into 100 GeV gravitinos at 1000 sec after the Big Bang, as proposed by one of us before. Moreover, the produced gravitinos naturally contribute a large fraction, or all, to the by WMAP required dark matter density. A prediction of this model is the dark matter to be lukewarm with free--streaming lengths of the order of a 4 keV early freezing--out relic particle. Such lukewarm gravitino dark matter may have beneficial effects to the formation of galactic structures and may be constrained by the reionisation history of the Universe. The current version of the paper presents results for both cases (a) when catalytic nuclear reations are included and (b) when they are neglected., Comment: catalytic effects are fully included in revised version, results are shown with and without catalytic effects, conclusions hardly changed

Published

2005

83. Gravitino Dark Matter in the CMSSM With Improved Constraints from BBN

Author

Cerdeno, David G., Choi, Ki-Young, Jedamzik, Karsten, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

In the framework of the Constrained MSSM we re--examine the gravitino as the lightest superpartner and a candidate for cold dark matter in the Universe. Unlike in other recent studies, we include both a thermal contribution to its relic population from scatterings in the plasma and a non--thermal one from neutralino or stau decays after freeze--out. Relative to a previous analysis [1] we update, extend and considerably improve our treatment of constraints from observed light element abundances on additional energy released during BBN in association with late gravitino production. Assuming the gravitino mass in the GeV to TeV range, and for natural ranges of other supersymmetric parameters, the neutralino region is excluded, while for smaller values of the gravitino mass it becomes allowed again. The gravitino relic abundance is consistent with observational constraints on cold dark matter from BBN and CMB in some well defined domains of the stau region but, in most cases, only due to a dominant contribution of the thermal population. This implies, depending on the gravitino mass, a large enough reheating temperature. If $\mgravitino>1$ GeV then $T_R>10^7$ GeV, if allowed by BBN and other constraints but, for light gravitinos, if $\mgravitino>100$ keV then $T_R>3\times 10^3$ GeV. On the other hand, constraints mostly from BBN imply an upper bound $T_R \lsim {a few}x 10^8\times10^9$ GeV which appears inconsistent with thermal leptogenesis. Finally, most of the preferred stau region corresponds to the physical vacuum being a false vacuum. The scenario can be partially probed at the LHC., Comment: Version with Erratum. Numerical bug fixed. An upper bound on the reheating temperature strengthened by about an order of magnitude

Published

2005

84. Non-thermal leptogenesis via direct inflaton decay without SU(2)(L) triplets

Author

Dent, Thomas, Lazarides, George, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

We present a non-thermal leptogenesis scenario following standard supersymmetric hybrid inflation, in the case where light neutrinos acquire mass via the usual seesaw mechanism and inflaton decay to heavy right-handed neutrino superfields is kinematically disallowed, or the right-handed neutrinos which can be decay products of the inflaton are unable to generate sufficient baryon asymmetry via their subsequent decay. The primordial lepton asymmetry is generated through the decay of the inflaton into light particles by the interference of one-loop diagrams with exchange of different right-handed neutrinos. The mechanism requires superpotential couplings explicitly violating a U(1) R-symmetry and R-parity. We take into account the constraints from neutrino masses and mixing and the preservation of the primordial asymmetry. We consider two models, one without and one with SU(2)(R) gauge symmetry. We show that the former is viable, whereas the latter is ruled out. Although the broken R-parity need not have currently observable low-energy signatures, some R-parity-violating slepton decays may be detectable in the future colliders., Comment: 22 pages including 9 figures, uses Revtex, version to appear in PRD

Published

2005

85. Gravitino Dark Matter in the CMSSM and Implications for Leptogenesis and the LHC

Author

Roszkowski, Leszek, de Austri, Roberto Ruiz, and Choi, Ki-Young

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

In the framework of the CMSSM we study the gravitino as the lightest supersymmetric particle and the dominant component of cold dark matter in the Universe. We include both a thermal contribution to its relic abundance from scatterings in the plasma and a non--thermal one from neutralino or stau decays after freeze--out. In general both contributions can be important, although in different regions of the parameter space. We further include constraints from BBN on electromagnetic and hadronic showers, from the CMB blackbody spectrum and from collider and non--collider SUSY searches. The region where the neutralino is the next--to--lightest superpartner is severely constrained by a conservative bound from excessive electromagnetic showers and probably basically excluded by the bound from hadronic showers, while the stau case remains mostly allowed. In both regions the constraint from CMB is often important or even dominant. In the stau case, for the assumed reasonable ranges of soft SUSY breaking parameters, we find regions where the gravitino abundance is in agreement with the range inferred from CMB studies, provided that, in many cases, a reheating temperature $\treh$ is large, $\treh\sim10^{9}\gev$. On the other side, we find an upper bound $\treh\lsim 5\times 10^{9}\gev$. Less conservative bounds from BBN or an improvement in measuring the CMB spectrum would provide a dramatic squeeze on the whole scenario, in particular it would strongly disfavor the largest values of $\treh\sim 10^{9}\gev$. The regions favored by the gravitino dark matter scenario are very different from standard regions corresponding to the neutralino dark matter, and will be partly probed at the LHC., Comment: JHEP version, several improvements and updates

Published

2004

86. Axino Dark Matter and the CMSSM

Author

Covi, Laura, Roszkowski, Leszek, de Austri, Roberto Ruiz, and Small, Michael

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

If the axino is the lightest superpartner and satisfies cosmological bounds, including a preferred range of the relic abundance of cold dark matter, then the usual stringent constraints on the parameter space of the CMSSM become greatly relaxed. The lightest superpartner of the usual CMSSM spectrum will appear to be stable in collider experiments but will not necessarily obey relic abundance constraints. It may be either neutral (lightest neutralino) or charged (typically a stau). With the axino as cold dark matter, large regions of the CMSSM, often corresponding to heavy superpartners, become allowed, depending on the axino mass and the reheating temperature., Comment: LaTeX, JHEP style, 18 pages, 7 figures, small changes and references added, version to appear in JHEP

Published

2004

87. Leptogenesis through direct inflaton decay to light particles

Author

Dent, Thomas, Lazarides, George, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

We present a scenario of nonthermal leptogenesis following supersymmetric hybrid inflation, in the case where inflaton decay to both heavy right handed neutrino and SU(2)_L triplet superfields is kinematically disallowed. Lepton asymmetry is generated through the decay of the inflaton into light particles by the interference of one-loop diagrams with right handed neutrino and SU(2)_L triplet exchange respectively. We require superpotential couplings explicitly violating a U(1) R-symmetry and R-parity. However, the broken R-parity need not have currently observable low-energy signatures. Also, the lightest sparticle can be stable. Some R-parity violating slepton decays may, though, be detectable in the future colliders. We take into account the constraints from neutrino masses and mixing and the preservation of the primordial lepton asymmetry., Comment: 11 pages including 3 figures, uses Revtex, minor corrections, references added

Published

2003

88. Curvaton Dynamics

Author

Dimopoulos, Konstantinos, Lazarides, George, Lyth, David, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

In contrast to the inflaton's case, the curvature perturbations due to the curvaton field depend strongly on the evolution of the curvaton before its decay. We study in detail the dynamics of the curvaton evolution during and after inflation. We consider that the flatness of the curvaton potential may be affected by supergravity corrections, which introduce an effective mass proportional to the Hubble parameter. We also consider that the curvaton potential may be dominated by a quartic or by a non-renormalizable term. We find analytic solutions for the curvaton's evolution for all these possibilities. In particular, we show that, in all the above cases, the curvaton's density ratio with respect to the background density of the Universe decreases. Therefore, it is necessary that the curvaton decays only after its potential becomes dominated by the quadratic term, which results in (Hubble damped) sinusoidal oscillations. In the case when a non-renormalizable term dominates the potential, we find a possible non-oscillatory attractor solution that threatens to erase the curvature perturbation spectrum. Finally, we study the effects of thermal corrections to the curvaton's potential and show that, if they ever dominate the effective mass, they lead to premature thermalization of the curvaton condensate. To avoid this danger, a stringent bound has to be imposed on the coupling of the curvaton to the thermal bath., Comment: 24 pages, 3 Postscript figures, RevTeX

Published

2003

89. The Peccei-Quinn Field as Curvaton

Author

Dimopoulos, Konstantinos, Lazarides, George, Lyth, David, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

A simple extension of the minimal supersymmetric standard model which naturally and simultaneously solves the strong CP and mu problems via a Peccei-Quinn and a continuous R symmetry is considered. This model is supplemented with hybrid inflation and leptogenesis, but without taking the specific details of these scenarios. It is shown that the Peccei-Quinn field can successfully act as a curvaton generating the total curvature perturbation in the universe in accord with the cosmic background explorer measurements. A crucial phenomenon, which assists us to achieve this, is the "tachyonic amplification" of the perturbation acquired by this field during inflation if the field, in its subsequent evolution, happens to be stabilized for a while near a maximum of the potential. In this case, the contribution of the field to the total energy density is also enhanced ("tachyonic effect"), which helps too. The cold dark matter in the universe consists, in this model, mainly of axions which carry an isocurvature perturbation uncorrelated with the total curvature perturbation. There are also lightest sparticles (neutralinos) which, like the baryons, originate from the inflationary reheating and, thus, acquire an isocurvature perturbation fully correlated with the curvature perturbation. So, the overall isocurvature perturbation has a mixed correlation with the adiabatic one. It is shown that the presently available bound on such an isocurvature perturbation from cosmic microwave background radiation and other data is satisfied. Also, the constraint on the non-Gaussianity of the curvature perturbation obtained from the recent Wilkinson microwave anisotropy probe data is fulfilled thanks to the "tachyonic effect"., Comment: 34 pages including 6 figures, uses JHEP3.cls, version to appear in JHEP

Published

2003

90. Upper and Lower Limits on Neutralino WIMP Mass and Spin--Independent Scattering Cross Section, and Impact of New (g-2)_{mu} Measurement

Author

Kim, Yeong Gyun, Nihei, Takeshi, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

We derive the allowed ranges of the spin--independent interaction cross section $\sigsip$ for the elastic scattering of neutralinos on proton for wide ranges of parameters of the general Minimal Supersymmetric Standard Model. We investigate the effects of the lower limits on Higgs and superpartner masses from colliders, as well as the impact of constraints from $\bsgamma$ and the new measurement of $\gmtwo$ on the upper and lower limits on $\sigsip$. We further explore the impact of the neutralino relic density, including coannihilation, and of theoretical assumptions about the largest allowed values of the supersymmetric parameters. For $\mu>0$, requiring the latter to lie below $1\tev$ leads to $\sigsip\gsim 10^{-11}\pb$ at $\mchi\sim100\gev$ and $\sigsip\gsim 10^{-8}\pb$ at $\mchi\sim1\tev$. When the supersymmetric parameters are allowed above $1\tev$, for $440\gev \lsim \mchi\lsim 1020 \gev$ we derive a {\em parameter--independent lower limit} of $\sigsip \gsim 2\times 10^{-12}\pb$. (No similar lower limits can be set for $\mu<0$ nor for $1020\gev\lsim\mchi\lsim2.6\tev$.) Requiring $\abundchi<0.3$ implies a {\em parameter--independent upper limit} $\mchi\lsim2.6\tev$. The new $\epem$--based measurement of $(g-2)_{\mu}$ restricts $\mchi\lsim 350\gev$ at $1 \sigma$ CL and $\mchi\lsim515\gev$ at $2 \sigma$ CL, and implies $\mu>0$. The largest allowed values of $\sigsip$ have already become accessible to recent experimental searches., Comment: LaTeX, 17 pages, 9 eps figures. Version to appear in JHEP

Published

2002

91. Exact Cross Sections for the Neutralino-Slepton Coannihilation

Author

Nihei, Takeshi, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

Coannihilation processes provide an important additional mechanism for reducing the density of stable relics in the Universe. In the case of the stable lightest neutralino of the MSSM, and in particular the Constrained MSSM (CMSSM), the coannihilation with sleptons plays a major role in opening up otherwise cosmologically excluded ranges of supersymmetric parameters. In this paper, we derive a full set of exact, analytic expressions for the coannihilation of the lightest neutralino with the sleptons into all two--body tree--level final states in the framework of minimal supersymmetry. We make no simplifying assumptions about the neutralino nor about sfermion masses and mixings other than the absence of explicit CP--violating terms and inter--family mixings. The expressions should be particularly useful in computing the neutralino WIMP relic abundance without the approximation of partial wave expansion. We illustrate the effect of our analytic results with numerical examples and demonstrate a sizeable difference with approximate expressions available in the literature., Comment: LaTeX, 46 pages, 8 eps figures

Published

2002

92. Exact Cross Sections for the Neutralino WIMP Pair-Annihilation

Author

Nihei, Takeshi, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology

Abstract

We derive a full set of exact, analytic expressions for the annihilation of the lightest neutralino pairs into all two-body tree-level final states in the framework of minimal supersymmetry. We make no simplifying assumptions about the neutralino nor about sfermion masses and mixings other than the absence of explicit CP--violating terms. The expressions should be particularly useful in computing the neutralino WIMP relic abundance without the usual approximation of partial wave expansion., Comment: LaTeX, 46 pages, no figures. Several minor typographical errors corrected

Published

2002

93. New Cosmological and Experimental Constraints on the CMSSM

Author

Roszkowski, Leszek, de Austri, Roberto Ruiz, and Nihei, Takeshi

Subjects

High Energy Physics - Phenomenology

Abstract

We analyze the implications of several recent cosmological and experimental measurements for the mass spectra of the Constrained MSSM (CMSSM). We compute the relic abundance of the neutralino and compare the new cosmologically expected and excluded mass ranges with those ruled out by the final LEP bounds on the lightest chargino and Higgs masses, with those excluded by current experimental values of $\br(B\to X_s \gamma)$, and with those favored by the recent measurement of the anomalous magnetic moment of the muon. We find that for $tan\beta\lsim 45$ there remains relatively little room for the mass spectra to be consistent with the interplay of the several constraints. On the other hand, at larger values of $tan\beta\$ the decreasing mass of the pseudoscalar Higgs gives rise to a wide resonance in the neutralino WIMP pair-annihilation, whose position depends on the ratio of top and bottom quark masses. As a consequence, the cosmologically expected regions consistent with other constraints often grow significantly and generally shift towards superpartner masses in the $\tev$ range., Comment: LaTex, 21 pages, 4 PS figures. Version published in JHEP, for updates see hep-ph/0206178

Published

2001

94. Towards An Accurate Calculation of the Neutralino Relic Density

Author

Nihei, Takeshi, Roszkowski, Leszek, and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

We compute the neutralino relic density in the minimal supersymmetric standard model by using exact expressions for the neutralino annihilation cross section into all tree-level final states, including all contributions and interference terms. We find that several final states may give comparable contributions to the relic density, which illustrates the importance of performing a complete calculation. We compare the exact results with those of the usual expansion method and demonstrate a sizeable discrepancy (of more than 10%) over a significant range of the neutralino mass of up to several tens of GeV which is caused by the presence of resonances and new final-state thresholds. We perform several related checks and comparisons. In particular, we find that the often employed approximate iterative procedure of computing the neutralino freeze-out temperature gives generally very accurate results, except when the expansion method is used near resonances and thresholds., Comment: 23 pages, 4 eps figures

Published

2001

95. Impact of Higgs physics on the parameter space of the μνSSM

Author

Kpatcha, Essodjolo, López-Fogliani, Daniel E., Muñoz, Carlos, and de Austri, Roberto Ruiz

Published

2020

96. The current status of fine-tuning in supersymmetry

Author

van Beekveld, Melissa, Caron, Sascha, and de Austri, Roberto Ruiz

Published

2020

97. The BSM-AI project: SUSY-AI–generalizing LHC limits on supersymmetry with machine learning

Author

Caron, Sascha, Kim, Jong Soo, Rolbiecki, Krzysztof, de Austri, Roberto Ruiz, and Stienen, Bob

Published

2017

98. Recent Advances in Bayesian Inference in Cosmology and Astroparticle Physics Thanks to the MultiNest Algorithm

Author

Trotta, Roberto, Feroz, Farhan, Hobson, Mike, de Austri, Roberto Ruiz, and Hilbe, Joseph M., editor

Published

2013

99. Right-handed sneutrino and gravitino multicomponent dark matter in light of neutrino detectors

Author

Kim, Jong Soo, Lopez-Fogliani, Daniel E., Perez, Andres D., and de Austri, Roberto Ruiz

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), FOS: Physical sciences, Astronomy and Astrophysics

Abstract

We investigate the possibility that right-handed (RH) sneutrinos and gravitinos can coexist and explain the dark matter (DM) problem. We compare extensions of the minimal supersymmetric standard model (MSSM) and the next-to-MSSM (NMSSM) adding RH neutrinos superfields, with special emphasis on the latter. If the gravitino is the lightest supersymmetric particle (LSP) and the RH sneutrino the next-to-LSP (NLSP), the heavier particle decays to the former plus left-handed (LH) neutrinos through the mixing between the scalar partners of the LH and RH neutrinos. However, the interaction is suppressed by the Planck mass, and if the LH-RH sneutrino mixing parameter is small, $\ll O(10^{-2})$, a long-lived RH sneutrino NLSP is possible even surpassing the age of the Universe. As a byproduct, the NLSP to LSP decay produces monochromatic neutrinos in the ballpark of current and planned neutrino telescopes like Super-Kamiokande, IceCube and Antares that we use to set constraints and show prospects of detection. In the NMSSM+RHN, assuming a gluino mass parameter $M_3 = 3$ TeV we found the following lower limits for the gravitino mass $m_{3/2} \gtrsim 1-600$ GeV and the reheating temperature $T_R \gtrsim 10^5 - 3 \times 10^7$ GeV, for $m_{\tilde{\nu}_R} \sim 10-800$ GeV. If we take $M_3=10$ TeV, then the limits on $T_R$ are relaxed by one order of magnitude., Comment: Discussions improved and expanded, version published in JCAP, 35 pages, 7 figures, 3 tables

Published

2023

100. Simple and statistically sound recommendations for analysing physical theories

Author

AbdusSalam, Shehu S., Agocs, Fruzsina J., Allanach, Benjamin C., Athron, Peter, Balazs, Csaba, Bagnaschi, Emanuele, Bechtle, Philip, Buchmueller, Oliver, Beniwal, Ankit, Bhom, Jihyun, Bloor, Sanjay, Bringmann, Torsten, Buckley, Andy, Butter, Anja, Camargo-Molina, J. Eliel, Chrzaszcz, Marcin, Conrad, Jan, Cornell, Jonathan M., Danninger, Matthias, de Blas, Jorge, De Roeck, Albert, Desch, Klaus, Dolan, Matthew, Dreiner, Herbert, Eberhardt, Otto, Ellis, John, Farmer, Ben, Fedele, Marco, Flaecher, Henning, Fowlie, Andrew, Gonzalo, Tomas E., Grace, Philip, Hamer, Matthias, Handley, Will, Harz, Julia, Heinemeyer, Sven, Hoof, Sebastian, Hotinli, Selim, Jackson, Paul, Kahlhoefer, Felix, Kowalska, Kamila, Kraemer, Michael, Kvellestad, Anders, Martinez, Miriam Lucio, Mahmoudi, Farvah, Martinez Santos, Diego, Martinez, Gregory D., Mishima, Satoshi, Olive, Keith, Paul, Ayan, Prim, Markus Tobias, Porod, Werner, Raklev, Are, Renk, Janina J., Rogan, Christopher, Roszkowski, Leszek, de Austri, Roberto Ruiz, Sakurai, Kazuki, Scaffidi, Andre, Scott, Pat, Sessolo, Enrico Maria, Stefaniak, Tim, Stoecker, Patrick, Su, Wei, Trojanowski, Sebastian, Trotta, Roberto, Tsai, Yue-Lin Sming, Van den Abeele, Jeriek, Valli, Mauro, Vincent, Aaron C., Weiglein, Georg, White, Martin, Wienemann, Peter, Wu, Lei, Zhang, Yang, AbdusSalam, Shehu S., Agocs, Fruzsina J., Allanach, Benjamin C., Athron, Peter, Balazs, Csaba, Bagnaschi, Emanuele, Bechtle, Philip, Buchmueller, Oliver, Beniwal, Ankit, Bhom, Jihyun, Bloor, Sanjay, Bringmann, Torsten, Buckley, Andy, Butter, Anja, Camargo-Molina, J. Eliel, Chrzaszcz, Marcin, Conrad, Jan, Cornell, Jonathan M., Danninger, Matthias, de Blas, Jorge, De Roeck, Albert, Desch, Klaus, Dolan, Matthew, Dreiner, Herbert, Eberhardt, Otto, Ellis, John, Farmer, Ben, Fedele, Marco, Flaecher, Henning, Fowlie, Andrew, Gonzalo, Tomas E., Grace, Philip, Hamer, Matthias, Handley, Will, Harz, Julia, Heinemeyer, Sven, Hoof, Sebastian, Hotinli, Selim, Jackson, Paul, Kahlhoefer, Felix, Kowalska, Kamila, Kraemer, Michael, Kvellestad, Anders, Martinez, Miriam Lucio, Mahmoudi, Farvah, Martinez Santos, Diego, Martinez, Gregory D., Mishima, Satoshi, Olive, Keith, Paul, Ayan, Prim, Markus Tobias, Porod, Werner, Raklev, Are, Renk, Janina J., Rogan, Christopher, Roszkowski, Leszek, de Austri, Roberto Ruiz, Sakurai, Kazuki, Scaffidi, Andre, Scott, Pat, Sessolo, Enrico Maria, Stefaniak, Tim, Stoecker, Patrick, Su, Wei, Trojanowski, Sebastian, Trotta, Roberto, Tsai, Yue-Lin Sming, Van den Abeele, Jeriek, Valli, Mauro, Vincent, Aaron C., Weiglein, Georg, White, Martin, Wienemann, Peter, Wu, Lei, and Zhang, Yang

Abstract

Physical theories that depend on many parameters or are tested against data from many different experiments pose unique challenges to statistical inference. Many models in particle physics, astrophysics and cosmology fall into one or both of these categories. These issues are often sidestepped with statistically unsound ad hoc methods, involving intersection of parameter intervals estimated by multiple experiments, and random or grid sampling of model parameters. Whilst these methods are easy to apply, they exhibit pathologies even in low-dimensional parameter spaces, and quickly become problematic to use and interpret in higher dimensions. In this article we give clear guidance for going beyond these procedures, suggesting where possible simple methods for performing statistically sound inference, and recommendations of readily-available software tools and standards that can assist in doing so. Our aim is to provide any physicists lacking comprehensive statistical training with recommendations for reaching correct scientific conclusions, with only a modest increase in analysis burden. Our examples can be reproduced with the code publicly available at Zenodo.

Published

2022