Your search keyword '"Pokorski, Stefan"' showing total 530 results

1. Dark Branes for Dark Matter

Author

Koutroulis, Fotis, Megias, Eugenio, Pokorski, Stefan, and Quiros, Mariano

Subjects

High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology

Abstract

We propose a setup for the origin of dark matter based on spacetime with a warped extra dimension and three branes: the Planck brane, the TeV brane, at a (few) TeV scale $\rho_T$, and a dark brane, at a (sub)-GeV scale $\rho_1\lesssim 100$ GeV $\ll\rho_T$. The Standard Model is localized in the TeV brane, thus solving the Higgs hierarchy problem, while the dark matter $\chi$, a Dirac fermion with mass $m_\chi<\rho_1$, is localized in the dark brane. The radion, with mass $m_r

Published

2024

2. $SU(2)_L$ deconstruction and flavour (non)-universality

Author

Capdevila, Bernat, Crivellin, Andreas, Lizana, Javier M., and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

We study two-site deconstructions of the $SU(2)_L$ gauge group factor of the SM. Models based on this approach can explain the hierarchies of the quark masses and CKM mixing between third and light families if these fields are localised on different sites by the presence of hierarchical new physics scales. The model leads to an accidental global $U(2)_q\times U(3)_u\times U(3)_d$ flavour symmetry which prevents dangerously large effects in flavour observables, making a TeV extension of the SM possible. Given the structure of the PMNS matrix in the neutrino sector, we explore different possibilities for the arrangement of the leptons on the two sites, and consider different models with $U(2)_{\ell}$ or $U(3)_{\ell}$ flavour symmetries. The phenomenology of the models is mostly governed by a massive vector triplet of $SU(2)_L$. We study the interesting interplay between LHC searches and precision observables. In particular, one of the models can give a sizeable lepton flavour universal effect in the Wilson coefficient $C_9$ while naturally suppressing contributions to $C_{10}$, as suggested by current $b\to s\ell^+\ell^-$ data, predicting simultaneously a mild positive shift in the $W$ boson mass., Comment: 14 pages + 8 appendices, 3 figures, version accepted for publication in JHEP

Published

2024

3. Exploring CP violation in $H \to \tau^+ \tau^- \gamma$

Author

Aakvaag, Erlend, Fomin, Nikolai, Lipniacka, Anna, Pokorski, Stefan, Rosiek, Janusz, and Sahoo, Dibyakrupa

Subjects

High Energy Physics - Phenomenology

Abstract

We propose a method of measuring the CP-odd part of the Yukawa interaction of Higgs boson and $\tau$ leptons by observing the forward-backward asymmetry in the decay $H \to \tau^+ \, \tau^- \, \gamma$. The source of such asymmetry is the interference of the CP-even loop-level contribution coming from $H \to Z \, \gamma \to \tau^+ \, \tau^- \, \gamma$ decay channel with the contribution from tree-level CP-odd Yukawa interaction. We find that the CP violating effect is maximum when the invariant mass of the $\tau^+ \, \tau^-$ pair is equal to the mass of the $Z$ boson. We propose and utilise various Dalitz plot asymmetries to quantify the maximal size of the asymmetry and perform Monte Carlo simulations to study the feasibility of measuring it in the high luminosity phase of the Large Hadron Collider (HL-LHC)., Comment: 11 pages, 9 figures, For the published version see the Journal reference and DOI

Published

2023

4. Gravitational production of sterile neutrinos

Author

Koutroulis, Fotis, Lebedev, Oleg, and Pokorski, Stefan

Subjects

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

Abstract

We consider gravitational production of singlet fermions such as sterile neutrinos during and after inflation. The production efficiency due to classical gravity is suppressed by the fermion mass. Quantum gravitational effects, on the other hand, are expected to break conformal invariance of the fermion sector by the Planck scale-suppressed operators irrespective of the mass. We find that such operators are very efficient in fermion production immediately after inflation, generating a significant background of stable or long-lived feebly interacting particles. This applies, in particular, to sterile neutrinos which can constitute cold non-thermal dark matter for a wide range of masses, including the keV scale., Comment: 18 pages, 1 figure. Accepted for publication in JHEP. New version matches the published one

Published

2023

5. Phases of Pseudo-Nambu-Goldstone Bosons

Author

Koutroulis, Fotis, McCullough, Matthew, Merchand, Marco, Pokorski, Stefan, and Sakurai, Kazuki

Subjects

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

Abstract

We study the vacuum dynamics of pseudo-Nambu-Goldstone bosons (pNGBs) for $SO(N+1) \rightarrow SO(N)$ spontaneous and explicit symmetry breaking. We determine the magnitude of explicit symmetry breaking consistent with an EFT description of the effective potential at zero and finite temperatures. We expose and clarify novel additional vacuum transitions that can arise for generic pNGBs below the initial scale of $SO(N+1) \rightarrow SO(N)$ spontaneous symmetry breaking, which may have phenomenological relevance. In this respect, two phenomenological scenarios are analyzed: thermal and supercooled dark sector pNGBs. In the thermal scenario the vacuum transition is first-order but very weak. For a supercooled dark sector we find that, depending on the sign of the explicit symmetry breaking, one can have a symmetry-restoring vacuum transition $SO(N-1) \rightarrow SO(N)$ which can be strongly first-order, with a detectable stochastic gravitational wave background signal., Comment: 28 pages, 10 figures

Published

2023

6. Flavour and Higgs physics in $Z_2$-symmetric 2HD models near the decoupling limit

Author

de Giorgi, Arturo, Koutroulis, Fotis, Merlo, Luca, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

With no evidence of any exotic particle detected so far beyond the Standard Model, the new physics may lie above the presently accessible energies at colliders and, at low-energies, can be accounted for via an effective description. The interplay of flavour and Higgs physics data allows setting stringent bounds on the parameters of the effective Lagrangian. In this paper, we focus on $Z_2$-symmetric two Higgs doublet models near the decoupling limit: the corresponding effective description relies on only a few parameters, thus predicting many interesting correlations between observables that work as tests of the theory. We present the results of a global fit to the existing data, updating and extending over the past literature. We comment on the triple Higgs coupling as a probe of an extended scalar sector and on the recent CDF II measurement of the $W$-mass., Comment: 30 pages, 16 figures

Published

2023

7. SU(2)L deconstruction and flavour (non)-universality

Author

Capdevila, Bernat, Crivellin, Andreas, Lizana, Javier M., and Pokorski, Stefan

Published

2024

8. The Low-Scale Seesaw Solution to the $M_W$ and $(g-2)_\mu$ Anomalies

Author

de Giorgi, Arturo, Merlo, Luca, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

The recent CDF-II measurement of the $W$-boson mass shows a strong tension with the corresponding Standard Model prediction. Once active neutrino masses are explained in the context of the Low-Scale Seesaw mechanisms, this tension can be resolved. We investigate the possibility of explaining the longstanding muon anomalous magnetic moment anomaly within the same frameworks. We present a simplified extension of the Standard Model, accounting only for the second lepton generation, that describes a massive active neutrino and provides a combined solution to these anomalies. The model is renormalisable and introduces in the spectrum, beyond the sterile species of the Low-Scale Seesaw mechanism, only one pair of exotic vector-like leptons, doublets under the electroweak symmetry. We moreover discuss the extension of this model to the realistic three-family case., Comment: 30 pages, 9 figures

Published

2022

9. Phases of Pseudo-Nambu-Goldstone bosons

Author

Koutroulis, Fotis, McCullough, Matthew, Merchand, Marco, Pokorski, Stefan, and Sakurai, Kazuki

Published

2024

10. Gravitational production of sterile neutrinos

Author

Koutroulis, Fotis, Lebedev, Oleg, and Pokorski, Stefan

Published

2024

11. Exploring CP violation in H→τ+τ-γ

Author

Aakvaag, Erlend, Fomin, Nikolai, Lipniacka, Anna, Pokorski, Stefan, Rosiek, Janusz, and Sahoo, Dibyakrupa

Published

2024

12. Goldstone boson decays and chiral anomalies

Author

Pokorski, Stefan and Sakurai, Kazuki

Subjects

High Energy Physics - Phenomenology

Abstract

Martinus Veltman was the first to point out the inconsistency of the experimental value for the decay rate of $\pi^0\rightarrow\gamma\gamma$ and its calculation by J. Steinberger with the very successful concept of the pion as the (pseudo)Nambu-Goldstone boson of the spontaneously broken global axial symmetry of strong interactions. That inconsistency has been resolved by J. Bell and R. Jackiw in their famous paper on the chiral anomalies. We review the connection between the decay amplitudes of an axion into two gauge bosons in Abelian vector-like and chiral gauge theories. The axion is the Nambu-Goldstone boson of a spontaneously broken axial global symmetry of the theory. Similarly as for the vector-like gauge theory, also in the chiral one the axion decay amplitude is determined by the anomaly of the current of the axial symmetry in its non-linear realization. Certain subtlety in the calculation of the anomaly in chiral gauge theories is emphasised., Comment: 12 pages, Contribution to the special volume of Acta Physica Polonica B commemorating Martinus Veltman

Published

2021

13. Analytical description of CP violation in oscillations of atmospheric neutrinos traversing the Earth

Author

Ioannisian, Ara, Pokorski, Stefan, Rosiek, Janusz, and Ryczkowski, Michal

Subjects

High Energy Physics - Phenomenology

Abstract

Flavour oscillations of sub-GeV atmospheric neutrinos and antineutrinos, traversing different distances inside the Earth, are a promising source of information on the leptonic CP phase $\delta$. In that energy range, the oscillations are very fast, far beyond the resolution of modern neutrino detectors. However, the necessary averaging over the experimentally typical energy and azimuthal angle bins does not wash out the CP violation effects. In this paper we derive very accurate analytic compact expressions for the averaged oscillations probabilities. Assuming spherically symmetric Earth, the averaged oscillation probabilities are described in terms of two analytically calculable effective parameters. Based on those expressions, we estimate maximal magnitude of CP-violation effects in such measurements and propose optimal observables best suited to determine the value of the CP phase in the PMNS mixing matrix., Comment: Extended version accepted for publication in JHEP (antineutrino oscillations included); 27 pages, 12 figures

Published

2020

14. Flavour and Higgs physics in Z2-symmetric 2HD models near the decoupling limit

Author

de Giorgi, Arturo, Koutroulis, Fotis, Merlo, Luca, and Pokorski, Stefan

Published

2023

15. Correlating $\epsilon^\prime/\epsilon$ to hadronic $B$ decays via $U(2)^3$ flavour symmetry

Author

Crivellin, Andreas, Gross, Christian, Pokorski, Stefan, and Vernazza, Leonardo

Subjects

High Energy Physics - Phenomenology

Abstract

There are strong similarities between charge-parity (CP) violating observables in hadronic $B$ decays (in particular $\Delta A^-_{\rm CP}$ in $B\to K\pi$) and direct CP violation in Kaon decays ($\epsilon^\prime$): All these observables are very sensitive to new physics (NP) which is at the same time CP and isospin violating (i.e. NP with complex couplings which are different for up quarks and down quarks). Intriguingly, both the measurements of $\epsilon^\prime$ and $\Delta A^-_{\rm CP}$ show deviations from their Standard Model predictions, calling for a common explanation (the latter is known as the $B\to K\pi$ puzzle). For addressing this point, we parametrize NP using a gauge invariant effective field theory approach combined with a global $U(2)^3$ flavor symmetry in the quark sector (also known as less-minimal flavour violation). We first determine the operators which can provide a common explanation of $\epsilon^\prime$ and $\Delta A^-_{\rm CP}$ and then perform a global fit of their Wilson coefficients to the data from hadronic $B$ decays. Here we also include e.g. the recently measured CP asymmetry in $B_s\to KK$ as well as the purely isospin violating decay $B_s\to\phi\rho^0$, finding a consistent NP pattern providing a very good fit to data. Furthermore, we can at the same time explain $\epsilon^\prime/\epsilon$ for natural values of the free parameters within our $U(2)^3$ flavour approach, and this symmetry gives interesting predictions for hadronic decays involving $b\to d$ transitions., Comment: 8 pages

Published

2019

16. Real Scalar Dark Matter: Relativistic Treatment

Author

Arcadi, Giorgio, Lebedev, Oleg, Pokorski, Stefan, and Toma, Takashi

Subjects

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

Abstract

A stable real scalar provides one of the simplest possibilities to account for dark matter. We consider the regime where its coupling to the Standard Model fields is negligibly small. Due to self-coupling, the scalar field can reach thermal or at least kinetic equilibrium, in which case the system is characterized by its temperature and effective chemical potential. We perform a fully relativistic analysis of dark matter evolution, thermalization conditions and different freeze-out regimes, including the chemical potential effects. To this end, we derive a relativistic Bose-Einstein analog of the Gelmini-Gondolo formula for a thermal averaged cross section. Finally, we perform a comprehensive parameter space analysis to determine regions consistent with observational constraints. Dark matter can be both warm and cold in this model., Comment: 27 pages, 10 figures, correction to the caption of fig.9

Published

2019

17. Gravitino vs Neutralino LSP at the LHC

Author

Kim, Jong Soo, Pokorski, Stefan, Rolbiecki, Krzysztof, and Sakurai, Kazuki

Subjects

High Energy Physics - Phenomenology

Abstract

Using the latest LHC data, we analyse and compare the lower limits on the masses of gluinos and the lightest stop in two natural supersymmetric motivated scenarios: one with a neutralino being the lightest supersymmetric particle (LSP) and the other one with gravitino as the LSP and neutralino as the next-to-lightest supersymmetric particle. In the second case our analysis applies to neutralinos promptly decaying to very light gravitinos, which are of cosmological interest, and are generic for low, of order O(100) TeV, messenger scale in gauge mediation models. We find that the lower bounds on the gluino and the lightest stop masses are stronger for the gravitino LSP scenarios due to the extra handle from the decay products of neutralinos. Generally, in contrast to the neutralino LSP case the limits now extend to a region of compressed spectrum. In bino scenarios the highest excluded stop mass increases from 1000 GeV to almost 1400 GeV. Additionally, in the higgsino-like NLSP scenario the higgsinos below 650 GeV are universally excluded and the stop mass limit is $m_{\tilde{t}} > 1150$ GeV, whereas there is no limit on stops in the higgsino LSP model for $m_{\tilde{h}} = 650$ GeV. Nevertheless, we find that the low messenger scale still ameliorates the fine tuning in the electroweak potential., Comment: 22 pages, 5 figures, minor changes, to appear in JHEP

Published

2019

18. A new approach to gauge coupling unification and proton decay

Author

Pokorski, Stefan, Rolbiecki, Krzysztof, Ross, Graham G., and Sakurai, Kazuki

Subjects

High Energy Physics - Phenomenology

Abstract

An analytical formalism, including RG running at two loop order, is used to link the supersymmetric and GUT spectra in any GUT model in which the three gauge couplings unify. In each specific GUT model, one can then fully explore the interplay between the pattern of supersymmetry breaking and the prediction for the proton lifetime. With this formalism at hand, we study three concrete GUT models: (i) Minimal SU(5) SUSY GUT, (ii) Missing Partner SU(5) SUSY GUT, and (iii) an orbifold SU(5) SUSY GUT. In each case we derive interesting conclusions about the possible patterns of the supersymmetric spectrum once the present limits on the proton lifetime are imposed, and vice versa, we obtain the predictions for the proton lifetime for specific viable choices of the SUSY spectrum., Comment: 23 pages, 4 figures, version published in JHEP

Published

2019

19. Three Neutrino Oscillations in Uniform Matter

Author

Ioannisian, Ara and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

Following similar approaches in the past, the Schrodinger equation for three neutrino propagation in matter of constant density is solved analytically by two successive diagonalizations of 2x2 matrices. The final result for the oscillation probabilities is obtained directly in the conventional parametric form as in the vacuum but with explicit simple modification of two mixing angles ($\theta_{12}$ and $\theta_{13}$) and mass eigenvalues., Comment: presented by Ara Ioannisian at ICHEP2018, Seoul (Conference: C18-07-04)

Published

2018

20. Axions in a highly protected gauge symmetry model

Author

Bonnefoy, Quentin, Dudas, Emilian, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We study QCD axion or cosmological axion-like particles (ALPs) in a model inspired by the recent interest in 4-dimensional clockwork models, with the global symmetry being accidentally enforced by a gauge abelian quiver with scalar bifundamental fields. For the QCD axion, we analyze the connection between the degree of protection of the axion mass against gravitational corrections, the explanation of the hierarchy $f_a \ll M_P$ and the number of colored fermions needed to generate anomalous couplings to gluons, all linked together by the underlying gauge symmetries. Based on that model and on the comparison with earlier models in the literature, we derive certain general conclusions on QCD axion models that use accidental global symmetries. For the ALPs, assuming that their mass is solely given by gravitational corrections, we identify the parameter space where the decay constant and the mass are consistent with the DM abundance, and we show that this clockwork-inspired model is a particularly economical model for a very light ALP DM candidate., Comment: Version accepted in EPJC. Discussion extended in the introduction and in section 3.2. 13 pages + appendices, 7 Figures

Published

2018

21. Lepton flavour violation in the MSSM: exact diagonalization vs mass expansion

Author

Crivellin, Andreas, Fabisiewicz, Zofia, Materkowska, Weronika, Nierste, Ulrich, Pokorski, Stefan, and Rosiek, Janusz

Subjects

High Energy Physics - Phenomenology

Abstract

The forthcoming precision data on lepton flavour violating decays require precise and efficient calculations in New Physics models. In this article lepton flavour violating processes within the Minimal Supersymmetric Standard Model (MSSM) are calculated using the method based on the Flavour Expansion Theorem, a recently developed technique performing a purely algebraic mass-insertion expansion of the amplitudes. The expansion in both flavour-violating and flavour-conserving off-diagonal terms of sfermion and supersymmetric fermion mass matrices is considered. In this way the relevant processes are expressed directly in terms of the parameters of the MSSM Lagrangian. We also study the decoupling properties of the amplitudes. The results are compared to the corresponding calculations in the mass eigenbasis (i.e. using the exact diagonalization of the mass matrices). Using these methods, we consider the following processes: $\ell \to \ell' \gamma$, $\ell \to 3 \ell'$, $\ell \to 2\ell'\ell"$, $h \to \ell\ell'$ as well as $\mu \to e$ conversion in nuclei. In the numerical analysis we update the bounds on the flavour changing parameters of the MSSM and examine the sensitivity to the forthcoming experimental results. We find that flavour violating muon decays provide the most stringent bounds on supersymmetric effects and will continue to do so in the future. Radiative $\ell\to\ell^\prime\gamma$ decays and leptonic three-body decays $\ell\to 3\ell^\prime$ show an interesting complementarity in eliminating "blind spots" in the parameter space. In our analysis we also include the effects of non-holomorphic $A$-terms which are important for the study of LFV Higgs decays., Comment: 61 pages, 13 figures, v3: figure and references added, version accepted for publication in JHEP

Published

2018

22. Same-sign WW scattering at the LHC: can we discover BSM effects before discovering new states?

Author

Kalinowski, Jan, Kozów, Paweł, Pokorski, Stefan, Rosiek, Janusz, Szleper, Michał, and Tkaczyk, Sławomir

Subjects

High Energy Physics - Phenomenology

Abstract

It is possible that measurements of vector boson scattering (VBS) at the LHC will reveal disagreement with Standard Model predictions, but no new particles will be observed directly. The task is then to learn as much as possible about the new physics from a VBS analysis carried within the framework of the Effective Field Theory (EFT). In this paper we discuss issues related to the correct usage of the EFT when the WW invariant mass is not directly accessible experimentally, as in purely leptonic W decay channels. The strategies for future data analyses in case such scenario indeed occurs are proposed., Comment: 24 pages

Published

2018

23. Three Neutrino Oscillations in Matter

Author

Ioannisian, Ara and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

Following similar approaches in the past, the Schrodinger equation for three neutrino propagation in matter of constant density is solved analytically by two successive diagonalizations of 2x2 matrices. The final result for the oscillation probabilities is obtained directly in the conventional parametric form as in the vacuum but with explicit simple modification of two mixing angles ($\theta_{12}$ and $\theta_{13}$) and mass eigenvalues., Comment: added discussion of results, one appendix is removed

Published

2018

24. The effective supergravity of Little String Theory

Author

Antoniadis, Ignatios, Delgado, Antonio, Markou, Chrysoula, and Pokorski, Stefan

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

In this work we present the minimal supersymmetric extension of the five-dimensional dilaton-gravity theory that captures the main properties of the holographic dual of little string theory. It is described by a particular gauging of $\mathcal{N}=2$ supergravity coupled with one vector multiplet associated to the string dilaton, along the $U(1)$ subgroup of $SU(2)$ R-symmetry. The linear dilaton in the fifth coordinate solution of the equations of motion (with flat string frame metric) breaks half of the supersymmetries to $\mathcal{N}=1$ in four dimensions. The non-supersymmetric version of this model was found recently as a continuum limit of a discretised version of the so-called clockwork setup.

Published

2017

25. Proton decay testing low energy SUSY

Author

Pokorski, Stefan, Rolbiecki, Krzysztof, and Sakurai, Kazuki

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

We show that gauge coupling unification in SUSY models can make a non-trivial interconnection between collider and proton decay experiments. Under the assumption of precise gauge coupling unification in the MSSM, the low energy SUSY spectrum and the unification scale are intertwined, and the lower bound on the proton lifetime can be translated into upper bounds on SUSY masses. We found that the current limit on $\tau(p \to \pi^0 e^+)$ already excludes gluinos and winos heavier than $\sim 120$ and 40 TeV, respectively, if their mass ratio is $M_3/M_2 \sim 3$. Next generation nucleon decay experiments are expected to bring these upper bounds down to $\sim 10$ and 3 TeV., Comment: 5 pages, 3 figures

Published

2017

26. Exploring CP violation in $$\varvec{H \rightarrow \tau ^+\,\tau ^-\,\gamma }$$

Author

Aakvaag, Erlend, primary, Fomin, Nikolai, additional, Lipniacka, Anna, additional, Pokorski, Stefan, additional, Rosiek, Janusz, additional, and Sahoo, Dibyakrupa, additional

Published

2024

27. Evading Direct Dark Matter Detection in Higgs Portal Models

Author

Arcadi, Giorgio, Gross, Christian, Lebedev, Oleg, Pokorski, Stefan, and Toma, Takashi

Subjects

High Energy Physics - Phenomenology

Abstract

Many models of Higgs portal Dark Matter (DM) find themselves under pressure from increasingly tight direct detection constraints. In the framework of gauge field DM, we study how such bounds can be relaxed while retaining the thermal WIMP paradigm. When the hidden sector gauge symmetry is broken via the Higgs mechanism, the hidden sector generally contains unstable states which are lighter than dark matter. These states provide DM with an efficient annihilation channel. As a result, the DM relic abundance and the direct detection limits are controlled by different parameters, and the two can easily be reconciled. This simple setup realizes the idea of `secluded' dark matter naturally., Comment: 9 pages

Published

2016

28. SUSY Meets Her Twin

Author

Katz, Andrey, Mariotti, Alberto, Pokorski, Stefan, Redigolo, Diego, and Ziegler, Robert

Subjects

High Energy Physics - Phenomenology

Abstract

We investigate the general structure of mirror symmetry breaking in the Twin Higgs scenario. We show, using the IR effective theory, that a significant gain in fine tuning can be achieved if the symmetry is broken hardly. We emphasize that weakly coupled UV completions can naturally accommodate this scenario. We analyze SUSY UV completions and present a simple Twin SUSY model with a tuning of around 10% and colored superpartners as heavy as 2 TeV. The collider signatures of general Twin SUSY models are discussed with a focus on the extended Higgs sectors., Comment: 37 pages plus appendices, 15 figures

Published

2016

29. Multicomponent Dark Matter from Gauge Symmetry

Author

Arcadi, Giorgio, Gross, Christian, Lebedev, Oleg, Mambrini, Yann, Pokorski, Stefan, and Toma, Takashi

Subjects

High Energy Physics - Phenomenology

Abstract

The composition of Dark Matter (DM) remains an important open question. The current data do not distinguish between single- and multi-component DM, while in theory constructions it is often assumed that DM is composed of a single field. In this work, we study a hidden sector which naturally entails multicomponent DM consisting of spin-1 and spin-0 states. This UV complete set-up is based on SU(3) hidden gauge symmetry with the minimal scalar field content to break it spontaneously. The presence of multiple DM components is a result of a residual Z_2 x Z'_2 symmetry which is part of an unbroken global U(1) x Z'_2 inherent in the Yang-Mills systems. We find that the model exhibits various parametric regimes with drastically different DM detection prospects. In particular, we find that the direct detection cross section is much suppressed in large regions of parameter space as long as the Standard Model Higgs mixes predominantly with a single scalar from the hidden sector. The resulting scattering rate is often beyond the level of sensitivity of XENON1T, while still being consistent with the thermal WIMP paradigm., Comment: v2: 25 pages, added references, small text adjustments

Published

2016

30. Interpreting 750 GeV Diphoton Excess in Plain NMSSM

Author

Badziak, Marcin, Olechowski, Marek, Pokorski, Stefan, and Sakurai, Kazuki

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

NMSSM has enough ingredients to explain the diphoton excess at 750 GeV: singlet-like (pseudo) scalar ($a$) $s$ and higgsinos as heavy vector-like fermions. We consider the production of the 750 GeV singlet-like pseudo scalar a from a decay of the doublet-like pseudo scalar $A$, and the subsequent decay of $a$ into two photons via higgsino loop. We demonstrate that this cascade decay of the NMSSM Higgs bosons can explain the diphoton excess in the 13 TeV data consistently with the absence of a significant excess in the 8 TeV data., Comment: 20 pages, 6 figures, typos have been corrected, a study about the radiative correction to the Higgs boson mass has been added

Published

2016

31. Resolving charm and bottom quark masses in precision Higgs boson analyses

Author

Petrov, Alexey A., Pokorski, Stefan, Wells, James D., and Zhang, Zhengkang

Subjects

High Energy Physics - Phenomenology

Abstract

Masses of the charm and bottom quarks are important inputs to precision calculations of Higgs boson observables, such as its partial widths and branching fractions. They constitute a major source of theory uncertainties that needs to be better understood and reduced in light of future high-precision measurements. Conventionally, Higgs boson observables are calculated in terms of $m_c$ and $m_b$, whose values are obtained by averaging over many extractions from low-energy data. This approach may ultimately be unsatisfactory, since $m_c$ and $m_b$ as single numbers hide various sources of uncertainties involved in their extractions some of which call for more careful estimations, and also hide correlations with additional inputs such as $\alpha_s$. Aiming at a more detailed understanding of the uncertainties from $m_c$ and $m_b$ in precision Higgs boson analyses, we present a calculation of Higgs boson observables in terms of low-energy observables, which reveals concrete sources of uncertainties that challenge sub-percent-level calculations of Higgs boson partial widths., Comment: 10 pages, 2 figures. To be published in the proceedings of CHARM-2015, Detroit, MI, 18-22 May 2015

Published

2015

32. Detecting underabundant neutralinos

Author

Badziak, Marcin, Delgado, Antonio, Olechowski, Marek, Pokorski, Stefan, and Sakurai, Kazuki

Subjects

High Energy Physics - Phenomenology

Abstract

The electroweak sector may play a crucial role in discovering supersymmetry. We systematically investigate the patterns of the MSSM-like electroweakinos, when the neutralino relic abundance $\Omega_\chi h^2\leq 0.12$, that is, also admitting for multi-component Dark Matter, in a broad range of the parameter space. We find that for a very large range of parameters the Direct Detection experiments are/will be sensitive to underabundant neutralinos, in spite of the strong rescaling of the flux factor. The second general conclusion is that the bound $\Omega_\chi h^2\leq 0.12$ together with the LUX (XENON1T) limits for the neutralino spin independent scattering cross sections constrain the electroweakino spectrum so that the mass differences between the NLSP and the LSP are smaller than 40 (10) GeV, respectively, with important implications for the collider searches. The future Direct Detection experiments and the high luminosity LHC run will probe almost the entire range of the LSP and NLSP mass spectrum that is consistent with the bound $\Omega_\chi h^2\leq 0.12$., Comment: 36 pages, 15 figures

Published

2015

33. Lepton-flavour violating $B$ decays in generic $Z^\prime$ models

Author

Crivellin, Andreas, Hofer, Lars, Matias, Joaquim, Nierste, Ulrich, Pokorski, Stefan, and Rosiek, Janusz

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

LHCb has reported deviations from the Standard Model in $b\to s\mu^+\mu^-$ transitions for which a new neutral gauge boson is a prime candidate for an explanation. As this gauge boson has to couple in a flavour non-universal way to muons and electrons in order to explain $R_K$, it is interesting to examine the possibility that also lepton flavour is violated, especially in the light of the CMS excess in $h\to\tau^\pm\mu^\mp$. In this article, we investigate the perspectives to discover the lepton-flavour violating modes $B\to K^{(*)}\tau^\pm\mu^\mp$, $B_s\to \tau^\pm\mu^\mp$ and $B\to K^{(*)} \mu^\pm e^\mp$, $B_s\to \mu^\pm e^\mp$. For this purpose we consider a simplified model in which new-physics effects originate from an additional neutral gauge boson ($Z^\prime$) with generic couplings to quarks and leptons. The constraints from $\tau\to3\mu$, $\tau\to\mu\nu\bar{\nu}$, $\mu\to e\gamma$, $g_\mu-2$, semi-leptonic $b\to s\mu^+\mu^-$ decays, $B\to K^{(*)}\nu\nu$ and $B_s$--$\overline{B}_s$ mixing are examined. From these decays, we determine upper bounds on the decay rates of lepton flavour violating $B$ decays. $Br(B\to K\nu\nu)$ limits the branching ratios of LFV $B$ decays to be smaller than $8\times 10^{-5} (2\times 10^{-5})$ for vectorial (left-handed) lepton couplings. However, much stronger bounds can be obtained by a combined analysis of $B_s$--$\overline{B}_s$, $\tau\to3\mu$, $\tau\to\mu\nu\bar{\nu}$ and other rare decays. The bounds depend on the amount of fine-tuning among the contributions to $B_s$--$\overline{B}_s$ mixing. Allowing for a fine-tuning at the percent level we find upper bounds of the order of $10^{-6}$ for branching ratios into $\tau\mu$ final states, while $B_s\to \mu^\pm e^\mp$ is strongly suppressed and only $B\to K^{(*)} \mu^\pm e^\mp$ can be experimentally accessible (with a branching ratio of order $10^{-7}$)., Comment: 7 pages, 4 figures, constraints from B->Knunu added, typos corrected

Published

2015

34. The role of low-energy observables in precision Higgs analysis

Author

Petrov, Alexey A., Pokorski, Stefan, Wells, James D., and Zhang, Zhengkang

Subjects

High Energy Physics - Phenomenology

Abstract

A conventional approach to precision calculations of Higgs boson observables uses quark masses $m_c$ and $m_b$ as inputs. However, quark masses are single numbers that hide a variety of low-energy data from which they are extracted, and also hide the various sources of theoretical uncertainties and correlations with additional input parameters such as $\alpha_s$. Higher-precision calculations, which are needed to give meaning to future measurements, require more direct engagement with the low-energy data in a global analysis. We present an initial calculation in this direction, which illustrates the procedure and reveals some of the theory uncertainties that challenge subpercent determinations of Higgs boson partial widths., Comment: 21 pages, 2 figures; v2: minor changes, typos corrected

Published

2015

35. Upper bounds on sparticle masses from muon g-2 and the Higgs mass and the complementarity of future colliders

Author

Badziak, Marcin, Lalak, Zygmunt, Lewicki, Marek, Olechowski, Marek, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

Supersymmetric (SUSY) explanation of the discrepancy between the measurement of $(g-2)_\mu$ and its SM prediction puts strong upper bounds on the chargino and smuon masses. At the same time, lower experimental limits on the chargino and smuon masses, combined with the Higgs mass measurement, lead to an upper bound on the stop masses. The current LHC limits on the chargino and smuon masses (for not too compressed spectrum) set the upper bound on the stop masses of about 10 TeV. The discovery potential of the future lepton and hadron colliders should lead to the discovery of SUSY if it is responsible for the explanation of the $(g-2)_\mu$ anomaly. This conclusion follows from the fact that the upper bound on the stop masses decreases with the increase of the lower experimental limit on the chargino and smuon masses., Comment: 14 pages, 4 figures; v2: fig.2, comments and references added, matches published version

Published

2014

36. Can the differences in the determinations of $V_{ub}$ and $V_{cb}$ be explained by New Physics?

Author

Crivellin, Andreas and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

The precise determination of the CKM elements $V_{cb}$ and $V_{ub}$ is crucial for any new physics analysis in the flavour sector. Their values can be determined from several tree-level decays: $V_{cb}$ can be extracted from $B\to D\ell\nu$ and $B\to D^*\ell\nu$ while $V_{ub}$ can be obtained from $B\to \pi\ell\nu$, $B\to \rho\ell\nu$ and $B\to\tau\nu$. In addition, for both $V_{cb }$ and $V_{ub}$ an inclusive determination is available. There is a long lasting discrepancy between the inclusive and exclusive determinations which recently even increased for $V_{cb}$ above the $3\;\sigma$ level. In this article we study the possible effect of new physics on the inclusive and exclusive determination of $V_{cb}$ and $V_{ub}$ in a model independent way. We find that there is only one operator corresponding to a modified $W$ coupling which can achieve this. However, respecting $SU(2)$ gauge invariance at the high scale this would lead to very large violations of the $Z$ to $b\bar b$ coupling not compatible with experiment. Therefore, we conclude that a new physics explanation of the difference between the inclusive and exclusive determination of $V_{cb}$ and $V_{ub}$ is currently ruled out. Therefore, the discrepancies must be due underestimated uncertainties in the theoretical and/or the experimental analysis., Comment: 6 pages, 2 figures, version accepted for publication in PRL

Published

2014

37. Experimental signatures of a light singlet-like scalar in NMSSM

Author

Badziak, Marcin, Olechowski, Marek, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

NMSSM with a light singlet-like scalar and strongly suppressed couplings to $b$ and $\tau$ is investigated. It is shown that in such a scenario the singlet-like scalar to diphoton signal can be larger than for the SM Higgs for a wide range of masses between 60 and 110 GeV, in agreement with all the LEP and LHC data. Enhancement of the singlet-like scalar to diphoton signal is correlated with positive correction to the SM-like Higgs mass from mixing between SM-like Higgs and the singlet. It is also shown that the couplings to $b$ and $\tau$ and, in consequence, branching ratios of the SM-like Higgs are anti-correlated with those of the singlet-like scalar. If the singlet-like scalar to diphoton signal is enhanced, the signal strengths of the 125 GeV Higgs in the diphoton and $WW^*/ZZ^*$ channels are predicted to be smaller than for the SM Higgs., Comment: Talk given at 49th Rencontres de Moriond on EW Interactions and Unified Theories, 15-22 March 2014, based on arXiv:1304.5437 and arXiv:1310.4518

Published

2014

38. Study of the 125 GeV Standard Model Higgs Boson Partial Widths and Branching Fractions

Author

Almeida, Leandro G., Lee, Seung J., Pokorski, Stefan, and Wells, James D.

Subjects

High Energy Physics - Phenomenology

Abstract

The discovery of the Higgs boson, with mass known to better than the percent level, enables for the first time precision Higgs boson analyses. Toward this goal, we define an expansion formalism of the Higgs boson partial widths and branching fractions that facilitates such studies. This expansion yields the observables as a perturbative expansion around reference values of Standard Model input observables (quark masses, QCD coupling constant, etc.). We compute the coefficients of the expansion using state-of-the-art results. We also study the various sources of uncertainties in computing the partial widths and branching fractions more precisely. We discuss the impact of these results with efforts to discern new physics through precision Higgs boson studies., Comment: 23 pages, 2 figures; v3: addendum with MSbar mass inputs and lower uncertainties

Published

2013

39. 125 GeV Higgs and enhanced diphoton signal of a light singlet-like scalar in NMSSM

Author

Badziak, Marcin, Olechowski, Marek, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

NMSSM with a light singlet-like scalar and strongly suppressed couplings to $b$ and $\tau$ is investigated. It is shown that in such a scenario the singlet-like scalar to diphoton signal can be larger than for the SM Higgs for a wide range of masses between 60 and 110 GeV, in agreement with all the LEP and LHC data. Enhancement of the singlet-like scalar to diphoton signal is correlated with positive correction to the SM-like Higgs mass from mixing between SM-like Higgs and the singlet. It is also shown that the couplings to $b$ and $\tau$ and, in consequence, branching ratios of the SM-like Higgs are anti-correlated with those of the singlet-like scalar. If the singlet-like scalar to diphoton signal is enhanced, the signal strengths of the 125 GeV Higgs in the diphoton and $WW^*/ZZ^*$ channels are predicted to be smaller than for the SM Higgs., Comment: 7 pages, 3 figures, to appear in the Proceedings of The European Physical Society Conference on High Energy Physics (EPS-HEP2013), 18-24 July 2013, Stockholm, Sweden, mainly based on arXiv:1304.5437

Published

2013

40. Linking Natural Supersymmetry to Flavour Physics

Author

Dudas, Emilian, von Gersdorff, Gero, Pokorski, Stefan, and Ziegler, Robert

Subjects

High Energy Physics - Phenomenology

Abstract

With the aim of linking natural supersymmetry to flavour physics, a model is proposed based on a family symmetry G \times U(1), where G is a discrete nonabelian subgroup of SU(2), with both F-term and (abelian) D-term supersymmetry breaking. A good fit to the fermion masses and mixing is obtained with the same U(1) charges for the left- and right- handed quarks of the first two families and the right-handed bottom quark, and with zero charge for the left-handed top-bottom doublet and the the right handed top. The model shows an interesting indirect correlation between the correct prediction for the V_{ub}/V_{cb} ratio and large right-handed rotations in the (s,b) sector, required to diagonalise the Yukawa matrix. For the squarks, one obtains almost degenerate first two generations. The main source of the FCNC and CP violation effects is the splitting between the first two families and the right-handed sbottom determined by the relative size of F-term and D-term supersymmetry breaking. The presence of the large right-handed rotation implies that the bounds on the masses of the first two families of squarks and the right handed sbottom are in a few to a few tens TeV range. The picture that emerges is light stops and left handed sbottom and much heavier other squarks., Comment: 29 pages, v2: Discussion on mu->e gamma modified, added some clarifications and references; published version

Published

2013

41. Light staus and enhanced Higgs diphoton rate with non-universal gaugino masses and SO(10) Yukawa unification

Author

Badziak, Marcin, Olechowski, Marek, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

It is shown that substantially enhanced Higgs to diphoton rate induced by light staus with large left-right mixing in MSSM requires at the GUT scale non-universal gaugino masses with bino and/or wino lighter than gluino. The possibility of such enhancement is investigated in MSSM models with arbitrary gaugino masses at the GUT scale with additional restriction of top-bottom-tau Yukawa unification, as predicted by minimal SO(10) GUTs. Many patterns of gaugino masses leading to enhanced Higgs to diphoton rate and the Yukawa unification are identified. Some of these patterns can be accommodated in a well-motivated scenarios such as mirage mediation or SUSY breaking F-terms being a non-singlet of SO(10). Phenomenological implications of a scenario with non-universal gaugino masses generated by a mixture of the singlet F-term and the F-term in a 24-dimensional representation of SU(5) $\subset$ SO(10) are studied in detail. Possible non-universalities of other soft terms generated by such F-terms are discussed. The enhancement of Higgs to diphoton rate up to 30% can be obtained in agreement with all phenomenological constraints, including vacuum metastability bounds. The lightest sbottom and pseudoscalar Higgs are within easy reach of the 14 TeV LHC. The LSP can be either bino-like or wino-like. The thermal relic abundance in the former case may be in agreement with the cosmological data thanks to efficient stau coannihilation., Comment: 28 pages, 8 figures, comments and references added, matches published version

Published

2013

42. New Regions in the NMSSM with a 125 GeV Higgs

Author

Badziak, Marcin, Olechowski, Marek, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

It is pointed out that mixing effects in the CP-even scalar sector of the NMSSM can give 6-8 GeV correction to the SM-like Higgs mass in moderate or large $\tan\beta$ regions with a small value of the singlet-higgs-higgs superfields coupling $\lambda\sim\mathcal{O}(0.1)$. This effect comes mainly from the mixing of the SM-like Higgs with lighter singlet. In the same parameter range, the mixing of the heavy doublet Higgs with the singlet may strongly modify the couplings of the singlet-like and the 125 GeV scalars. Firstly, the LEP bounds on a light singlet can be evaded for a large range of its masses. Secondly, the decay rates of both scalars can show a variety of interesting patterns, depending on the lightest scalar mass. In particular, a striking signature of this mechanism can be a light scalar with strongly suppressed (enhanced) branching ratios to $b\bar{b}$ ($gg$, $c\bar{c}$, $\gamma\gamma$) as compared to the SM Higgs with the same mass. The $\gamma\gamma$ decay channel is particularly promising for the search of such a scalar at the LHC. The 125 GeV scalar can, thus, be accommodated with substantially smaller than in the MSSM radiative corrections from the stop loops (and consequently, with lighter stops) also for moderate or large $\tan\beta$, with the mixing effects replacing the standard NMSSM mechanism of increasing the tree level Higgs mass in the low $\tan\beta$ and large $\lambda$ regime, and with clear experimental signatures of such a mechanism., Comment: 19 pages, 5 figures, references added, version to be published

Published

2013

43. Inverted sfermion mass hierarchy and the Higgs boson mass in the MSSM

Author

Badziak, Marcin, Dudas, Emilian, Olechowski, Marek, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

It is shown that MSSM with first two generations of squarks and sleptons much heavier than the third one naturally predicts the maximal stop mixing as a consequence of the RG evolution, with vanishing (or small) trilinear coupling at the high scale. The Higgs boson is generically heavy, in the vicinity of 125 GeV. In this inverted hierarchy scenario, motivated by the supersymmetric FCNC problem and models for fermion masses based on horizontal symmetries, the mass of the lightest stop is O(0.5) TeV and of gluino - O(2-3) TeV. The LSP can be either higgsino or bino or a mixture of both and it can be a good dark matter candidate., Comment: 22 pages, 8 figures, comments and references added

Published

2012

44. Extra U(1) as natural source of a monochromatic gamma ray line

Author

Dudas, Emilian, Mambrini, Yann, Pokorski, Stefan, and Romagnoni, Alberto

Subjects

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

Abstract

Extensions of the Standard Model with an extra U'(1) abelian group generically generate terms coming from loops of heavy fermions, leading to three gauge boson couplings, in particular Z'Z gamma. We show that WMAP data constrains the gauge coupling of the group g_D to values comparable with the electro-weak ones, rather independently of the mass of Z'. Moreover, the model predicts a monochromatic gamma-ray line which can fit a 130 GeV signal at the FERMI telescope for natural values of the Chern-Simons terms and a dark matter mass around 144.5 GeV., Comment: 6 pages, 5 figures, published version

Published

2012

45. Universal Constraints on Low-Energy Flavour Models

Author

Calibbi, Lorenzo, Lalak, Zygmunt, Pokorski, Stefan, and Ziegler, Robert

Subjects

High Energy Physics - Phenomenology

Abstract

It is pointed out that in a general class of flavour models one can identify certain universally present FCNC operators, induced by the exchange of heavy flavour messengers. Their coefficients depend on the rotation angles that connect flavour and fermion mass basis. The lower bounds on the messenger scale are derived using updated experimental constraints on the FCNC operators. The obtained bounds are different for different operators and in addition they depend on the chosen set of rotations. Given the sensitivity expected in the forthcoming experiments, the present analysis suggests interesting room for discovering new physics. As the highlights emerge the leptonic processes, $\mu\rightarrow e\gamma$, $\mu\rightarrow eee$ and $\mu\rightarrow e$ conversion in nuclei., Comment: 18 pages, 3 figures; v2 matches published version

Published

2012

46. The Messenger Sector of SUSY Flavour Models and Radiative Breaking of Flavour Universality

Author

Calibbi, Lorenzo, Lalak, Zygmunt, Pokorski, Stefan, and Ziegler, Robert

Subjects

High Energy Physics - Phenomenology

Abstract

The flavour messenger sectors and their impact on the soft SUSY breaking terms are investigated in SUSY flavour models. In the case when the flavour scale M is below the SUSY breaking mediation scale M_S, the universality of soft terms, even if assumed at M_S, is radiatively broken. We estimate this effect in a broad class of models. In the CKM basis that effect gives flavour off-diagonal soft masses comparable to the tree-level estimate based on the flavour symmetry., Comment: 24 pages, 3 figures. v3: minor changes in the text, typos corrected, version accepted for publication in JHEP

Published

2012

47. If no Higgs then what?

Author

Falkowski, Adam, Grojean, Christophe, Kaminska, Anna, Pokorski, Stefan, and Weiler, Andreas

Subjects

High Energy Physics - Phenomenology

Abstract

In the absence of a Higgs boson, the perturbative description of the Standard Model ceases to make sense above a TeV. Heavy spin-1 fields coupled to W and Z bosons can extend the validity of the theory up to higher scales. We carefully identify regions of parameter space where a minimal addition - a single spin-1 custodial SU(2) triplet resonance - allows one to retain perturbative control in all channels. Elastic scattering of longitudinal W and Z bosons alone seems to permit a very large cut-off beyond the Naive Dimensional Analysis expectation. We find however that including scattering of the spin-1 resonances then leads to an earlier onset of strong coupling. Most importantly for LHC searches, we define a self-consistent set-up with a well-defined range of validity without recourse to unitarization schemes whose physical meaning is obscure. We discuss the LHC phenomenology and the discovery reach for these electroweak resonances and mention the possibility of a nightmare scenario with no Higgs nor resonance within the LHC reach. Finally, we discuss the effects of parity breaking in the heavy resonance sector which reduces the contributions to the S parameter., Comment: 34 pages, 10 figures; v2: constraints updated, references added; v3: replaced troubleshooting figures, can be viewed now by non-Mac users, RIP Steve

Published

2011

48. Yukawa unification in SO(10) with light sparticle spectrum

Author

Badziak, Marcin, Olechowski, Marek, and Pokorski, Stefan

Subjects

High Energy Physics - Phenomenology

Abstract

We investigate supersymmetric SO(10) GUT model with \mu<0. The requirements of top-bottom-tau Yukawa unification, correct radiative electroweak symmetry breaking and agreement with the present experimental data may be met when the soft masses of scalars and gauginos are non-universal. We show how appropriate non-universalities can easily be obtained in the SO(10) GUT broken to the Standard Model. We discuss how values of BR(b-->s \gamma) and (g-2)_\mu simultaneously in a good agreement with the experimental data can be achieved in SO(10) model with \mu<0. In the region of the parameter space preferred by our analysis there are two main mechanisms leading to the LSP relic abundance consistent with the WMAP results. One is the co-annihilation with the stau and the second is the resonant annihilation via exchange of the Z boson or the light Higgs scalar. A very interesting feature of SO(10) models with negative \mu is that they predict relatively light sparticle spectra. Even the heaviest superpartners may easily have masses below 1.5 TeV in contrast to multi-TeV particles typical for models with positive \mu., Comment: 23 pages, 5 figures

Published

2011

49. FCNC Effects in a Minimal Theory of Fermion Masses

Author

Buras, Andrzej J., Grojean, Christophe, Pokorski, Stefan, and Ziegler, Robert

Subjects

High Energy Physics - Phenomenology

Abstract

As a minimal theory of fermion masses we extend the SM by heavy vectorlike fermions, with flavor-anarchical Yukawa couplings, that mix with chiral fermions such that small SM Yukawa couplings arise from small mixing angles. This model can be regarded as an effective description of the fermionic sector of a large class of existing flavor models and thus might serve as a useful reference frame for a further understanding of flavor hierarchies in the SM. Already such a minimal framework gives rise to FCNC effects through exchange of massive SM bosons whose couplings to the light fermions get modified by the mixing. We derive general formulae for these corrections and discuss the bounds on the heavy fermion masses. Particularly stringent bounds, in a few TeV range, come from the corrections to the Z couplings., Comment: 19 pages, 1 figure

Published

2011

50. Supersymmetric mass spectra for gravitino dark matter with a high reheating temperature

Author

Covi, Laura, Olechowski, Marek, Pokorski, Stefan, Turzynski, Krzysztof, and Wells, James D.

Subjects

High Energy Physics - Phenomenology

Abstract

Supersymmetric theories with gravitino dark matter generally do not allow the high reheating temperature required by thermal leptogenesis without running afoul of relic abundance or big bang nucleosynthesis constraints. We report on a successful search for parameter space that does satisfy these requirements. The main implication is the near degeneracy of the gluino with the other neutralinos in the spectrum. The leading discovery channel at the LHC for this scenario is through monojet plus missing energy events., Comment: 13 pages, 9 figures

Published

2010