71 research outputs found

    A hidden solution to the mu/B_mu problem in gauge mediation

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    We propose a solution to the mu/B_mu problem in gauge mediation. The novel feature of our solution is that it uses dynamics of the hidden sector, which is often present in models with dynamical supersymmetry breaking. We give an explicit example model of gauge mediation where a very simple messenger sector generates both mu and B_mu at one loop. The usual problem, that B_mu is then too large, is solved by strong renormalization effects from the hidden sector which suppress B_mu relative to mu. Our mechanism relies on an assumption about the signs of certain incalculable anomalous dimensions in the hidden sector. Making these assumptions not only allows us to solve the mu/B_mu problem but also leads to a characteristic superpartner spectrum which would be a smoking gun signal for our mechanism.Comment: minor clarifications, examples added, version to appear in PR

    Post‑caesarean vesicouterine fistula: Youssef’s syndrome a case report

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    Vesicouterine fistula is an uncommon urogynecological fistula, typically induced following lower uterine segment cesarean section, especially an emergency one. The classical clinical features of Youssef’s syndrome are cyclical hematuria, amenorrhea, and urinary continence. The index case reported was a 30 year‐old multipara who had two previous lower segment cesarean sections, underwent a third-time cesarean section and developed urinary incontinence and hematuria on the second week of the post-operative period. CECT urography confirmed vesicouterine fistula. The fistula was managed conservatively

    Successful pregnancy outcome in a case of Eisenmenger syndrome

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    Eisenmenger syndrome is a very rare heart disease in pregnant women. Eisenmenger syndrome is defined as pulmonary hypertension resulting from an uncorrected left to right shunt of a VSD, ASD or patent ductus arteriosus (PDA), with subsequent shunt reversal and cyanosis. Pulmonary hypertension is the prognosis index. The high mortality risk (25-30%) is associated with pregnancy and the peripartum period due to cardiovascular collapse. Pregnancy should be discouraged and reliable contraception, preferably permanent sterilization, advised because of the extreme risk associated with pregnancy. Depo-Provera or progesterone implants are nonsurgical alternatives. Even first-trimester termination is associated with a maternal mortality rate of 5-10%. However, despite all the risks, a few patients deliver successfully with a good maternal and neonatal outcome. We presented a 27-year-old booked G1P0+0 admitted at 34 weeks gestation with Eisenmenger syndrome. She was treated medically during pregnancy, underwent elective caesarean section at 34 weeks of gestation delivered a baby and was subsequently discharged on the 15th postoperative day without any serious complications

    Phenomenology of SUSY with scalar sequestering

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    The defining feature of scalar sequestering is that the MSSM squark and slepton masses as well as all entries of the scalar Higgs mass matrix vanish at some high scale. This ultraviolet boundary condition - scalar masses vanish while gaugino and Higgsino masses are unsuppressed - is independent of the supersymmetry breaking mediation mechanism. It is the result of renormalization group scaling from approximately conformal strong dynamics in the hidden sector. We review the mechanism of scalar sequestering and prove that the same dynamics which suppresses scalar soft masses and the B_mu term also drives the Higgs soft masses to -|mu|^2. Thus the supersymmetric contribution to the Higgs mass matrix from the mu-term is exactly canceled by the soft masses. Scalar sequestering has two tell-tale predictions for the superpartner spectrum in addition to the usual gaugino mediation predictions: Higgsinos are much heavier (mu > TeV) than scalar Higgses (m_A ~ few hundred GeV), and third generation scalar masses are enhanced because of new positive contributions from Higgs loops.Comment: 16 pages and 3 figure

    Ditau jets in Higgs searches

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    Understanding and identifying ditau jets -- jets consisting of pairs of tau particles, can be of crucial importance and may even turn out to be a necessity if the Higgs boson decays dominantly to new light scalars which, on the other hand, decay to tau pairs. As often seen in various models of BSM such as in the NMSSM, Higgs portals etc., the lightness of these new states ensures their large transverse momenta and, as a consequence, the collinearity of their decay products. We show that the non-standard signatures of these objects, which can easily be missed by standard analysis techniques, can be superbly exploited in an analysis based on subjet observables. When combined with additional selection strategies, this analysis can even facilitate an early discovery of the Higgs boson. To be specific, a light Higgs can be found with S/B≳5S/\sqrt{B} \gtrsim 5 from L≃12fb−1\mathcal {L} \simeq 12 fb^{-1} of data. We combine all these observables into a single discriminating likelihood that can be employed toward the construction of a realistic and standalone ditau tagger.Comment: 9 pages, 9 figures. References added, typos corrected, published versio

    A Framework for Finding Anomalous Objects at the LHC

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    Search for new physics events at the LHC mostly rely on the assumption that the events are characterized in terms of standard-reconstructed objects such as isolated photons, leptons, and jets initiated by QCD-partons. While such strategy works for a vast majority of physics beyond the standard model scenarios, there are examples aplenty where new physics give rise to anomalous objects (such as collimated and equally energetic particles, decays due to long lived particles etc.) in the detectors, which can not be classified as any of the standard-objects. Varied methods and search strategies have been proposed, each of which is trained and optimized for specific models, topologies, and model parameters. Further, as LHC keeps excluding all expected candidates for new physics, the need for a generic method/tool that is capable of finding the unexpected can not be understated. In this paper, we propose one such method that relies on the philosophy that all anomalous objects are not\it{not} standard-objects. The anomaly finder, we suggest, simply is a collection of vetoes that eliminate all standard-objects up to a pre-determined acceptance rate. Any event containing at least one anomalous object (that passes all these vetoes), can be identified as a candidate for new physics. Subsequent offline analyses can determine the nature of the anomalous object as well as of the event, paving a robust way to search for these new physics scenarios in a model-independent fashion. Further, since the method relies on learning only the standard-objects, for which control samples are readily available from data, one can build the analysis in an entirely data-driven way.Comment: 32 pages, 5 tables and 12 figures; v2: references added; v3: Practical guideline given for implementation at the LHC, comments added on the possibility of inclusion of Muons and b-jets in the framework. Accepted for publication in Nuclear Physics B; v4: Title fixed from v3 to match journal version, funding information update
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