Your search keyword '"Kuttimalai, Silvan"' showing total 16 results

1. Monte Carlo simulations for BSM physics and precision Higgs physics at the LHC

Author

Kuttimalai, Silvan Shiwa

Subjects

539.7

Abstract

Monte Carlo event generators are indispensable tools for the interpretation of data taken at particle collider experiments like the Large Hadron Collider (LHC), the most powerful particle collider to date. In this thesis, the general purpose Monte Carlo event generator Sherpa is used to implement a new simulation framework for models that go beyond the Standard Model of particle physics. This is achieved by means of an newly designed interface to a universal format for generic models and by extending existing functionalities in such a way as to handle a generic class of coupling structures that appear in many extensions of the Standard Model. Furthermore, an improved modeling of the dominant LHC Higgs pro- duction mechanism in the Standard Model is described and the effects of the improvements are quantified. The improved simulation that is implemented in Sherpa supplements the description of Higgs production at the LHC in terms of an effective Higgs-gluon interaction with finite top quark mass effects that restore a reliable description of the kinematics in events with large momentum transfers. Using this improved description of Higgs production at the LHC, this work demonstrates how the transverse momentum spectrum of the Higgs boson can be used to constrain models that modify the Higgs-gluon coupling. In addition, state-of-the-art Monte Carlo event generation techniques are used in order to assess the sensitivity of analysis strategies in the search for invisibly decaying Higgs bosons. In this analysis, it was found that previously neglected loop-induced contributions have a significant impact and it is demonstrated how multi-jet merging techniques can be used to obtain a reliable description of these contributions. Furthermore, the work presented in the last chapter of this thesis shows how jet substructure techniques can be used in order to search for rare Higgs decays into light resonances that decay further into hadrons. This analysis closes with a demonstration on how such an analysis can be used to constrain extensions of the Standard Model that feature multiple Higgs bosons.

Published

2016

2. Jet cross sections at the LHC and the quest for higher precision

Author

Bellm, Johannes, Buckley, Andy, Chen, Xuan; https://orcid.org/0000-0001-6772-2196, Gehrmann-De Ridder, Aude; https://orcid.org/0000-0002-2686-9658, Gehrmann, Thomas; https://orcid.org/0000-0001-7009-432X, Glover, Nigel, Höche, Stefan, Huss, Alexander, Huston, Joey, Kuttimalai, Silvan, Pires, Joao, Plätzer, Simon, Re, Emanuele, Bellm, Johannes, Buckley, Andy, Chen, Xuan; https://orcid.org/0000-0001-6772-2196, Gehrmann-De Ridder, Aude; https://orcid.org/0000-0002-2686-9658, Gehrmann, Thomas; https://orcid.org/0000-0001-7009-432X, Glover, Nigel, Höche, Stefan, Huss, Alexander, Huston, Joey, Kuttimalai, Silvan, Pires, Joao, Plätzer, Simon, and Re, Emanuele

Abstract

We perform a phenomenological study of Z plus jet, Higgs plus jet and di-jet production at the Large Hadron Collider. We investigate in particular the dependence of the leading jet cross section on the jet radius as a function of the jet transverse momentum. Theoretical predictions are obtained using perturbative QCD calculations at the next-to and next-to-next-to-leading order, using a range of renormalization and factorization scales. The fixed order predictions are compared to results obtained from matching next-to-leading order calculations to parton showers. A study of the scale dependence as a function of the jet radius is used to provide a better estimate of the scale uncertainty for small jet sizes. The non-perturbative corrections as a function of jet radius are estimated from different generators.

Published

2020

3. Event generation with Sherpa 2.2

Author

Bothmann, E, Singh Chahal, G, Höche, S, Krause, J, Krauss, F, Kuttimalai, S, Liebschner, S, Napoletano, D, Schönherr, M, Schulz, H, Schumann, S, Siegert, F, Bothmann, Enrico, Singh Chahal, Gurpreet, Höche, Stefan, Krause, Johannes, Krauss, Frank, Kuttimalai, Silvan, Liebschner, Sebastian, Napoletano, Davide, Schönherr, Marek, Schulz, Holger, Schumann, Steffen, Siegert, Frank, Bothmann, E, Singh Chahal, G, Höche, S, Krause, J, Krauss, F, Kuttimalai, S, Liebschner, S, Napoletano, D, Schönherr, M, Schulz, H, Schumann, S, Siegert, F, Bothmann, Enrico, Singh Chahal, Gurpreet, Höche, Stefan, Krause, Johannes, Krauss, Frank, Kuttimalai, Silvan, Liebschner, Sebastian, Napoletano, Davide, Schönherr, Marek, Schulz, Holger, Schumann, Steffen, and Siegert, Frank

Abstract

SHERPA is a general-purpose Monte Carlo event generator for the simulation of particle collisions in high-energy collider experiments. We summarise essential features and improvements of the SHERPA 2.2 release series, which is heavily used for event generation in the analysis and interpretation of LHC Run 1 and Run 2 data. We highlight a decade of developments towards ever higher precision in the simulation of particle-collision events.

Published

2019

4. Event Generation with Sherpa 2.2

Author

Bothmann, Enrico, Chahal, Gurpreet Singh, Höche, Stefan, Krause, Johannes, Krauss, Frank, Kuttimalai, Silvan, Liebschner, Sebastian, Napoletano, Davide, Schönherr, Marek, Schulz, Holger, Schumann, Steffen, Siegert, Frank, Bothmann, Enrico, Chahal, Gurpreet Singh, Höche, Stefan, Krause, Johannes, Krauss, Frank, Kuttimalai, Silvan, Liebschner, Sebastian, Napoletano, Davide, Schönherr, Marek, Schulz, Holger, Schumann, Steffen, and Siegert, Frank

Abstract

Sherpa is a general-purpose Monte Carlo event generator for the simulation of particle collisions in high-energy collider experiments. We summarize essential features and improvements of the Sherpa 2.2 release series, which is heavily used for event generation in the analysis and interpretation of LHC Run 1 and Run 2 data. We highlight a decade of developments towards ever higher precision in the simulation of particle-collision events., Comment: 39 pages, 18 figures, extended discussion

Published

2019

5. Jet cross sections at the LHC and the quest for higher precision

Author

Bellm, Johannes, Buckley, Andy, Chen, Xuan, Ridder, Aude Gehrmann-De, Gehrmann, Thomas, Glover, Nigel, Huss, Alexander, Pires, Joao, Höche, Stefan, Huston, Joey, Kuttimalai, Silvan, Plätzer, Simon, Re, Emanuele, Bellm, Johannes, Buckley, Andy, Chen, Xuan, Ridder, Aude Gehrmann-De, Gehrmann, Thomas, Glover, Nigel, Huss, Alexander, Pires, Joao, Höche, Stefan, Huston, Joey, Kuttimalai, Silvan, Plätzer, Simon, and Re, Emanuele

Abstract

We perform a phenomenological study of $Z$ plus jet, Higgs plus jet and di-jet production at the Large Hadron Collider. We investigate in particular the dependence of the leading jet cross section on the jet radius as a function of the jet transverse momentum. Theoretical predictions are obtained using perturbative QCD calculations at the next-to and next-to-next-to-leading order, using a range of renormalization and factorization scales. The fixed order predictions are compared to results obtained from matching next-to-leading order calculations to parton showers. A study of the scale dependence as a function of the jet radius is used to provide a better estimate of the scale uncertainty for small jet sizes. The non-perturbative corrections as a function of jet radius are estimated from different generators., Comment: 23 pages, 19 figures

Published

2019

6. Hadronic Final States in DIS at NNLO QCD with Parton Showers

Author

Höche, Stefan, Kuttimalai, Silvan, Li, Ye, Höche, Stefan, Kuttimalai, Silvan, and Li, Ye

Abstract

We present a parton-shower matched NNLO QCD calculation for hadronic final state production in Deep Inelastic Scattering. The computation is based on the UNLOPS method and is implemented in the publicly available event generation framework SHERPA. Results are compared to measurements performed by the H1 collaboration.

Published

2018

7. Monojet Signatures from Heavy Colored Particles: Future Collider Sensitivities and Theoretical Uncertainties

Author

Chakraborty, Amit, Kuttimalai, Silvan, Lim, Sung Hak, Nojiri, Mihoko M., Ruiz, Richard, Chakraborty, Amit, Kuttimalai, Silvan, Lim, Sung Hak, Nojiri, Mihoko M., and Ruiz, Richard

Abstract

In models with colored particle $\mathcal{Q}$ that can decay into a dark matter candidate $X$, the relevant collider process $pp\to \mathcal{Q}\bar{\mathcal{Q}}\rightarrow X\bar{X}+$jets gives rise to events with significant transverse momentum imbalance. When the masses of $\mathcal{Q}$ and $X$ are very close, the relevant signature becomes monojet-like, and Large Hadron Collider (LHC) search limits become much less constraining. In this paper, we study the current and anticipated experimental sensitivity to such particles at the High-Luminosity LHC at $\sqrt{s}=14\,\mathrm{TeV}$ with $\mathcal{L}=3\,\mathrm{ab}^{-1}$ of data and the proposed High-Energy LHC at $\sqrt{s}=27\,\mathrm{TeV}$ with $\mathcal{L}=15\,\mathrm{ab}^{-1}$ of data. We estimate the reach for various Lorentz and QCD color representations of $\mathcal{Q}$. Identifying the nature of $\mathcal{Q}$ is very important to understanding the physics behind the monojet signature. Therefore, we also study the dependence of the observables built from the $pp\to\mathcal{Q}\bar{\mathcal{Q}} + j $ process on $\mathcal{Q}$ itself. Using the state-of-the-art Monte Carlo suites MadGraph5_aMC@NLO+Pythia8 and Sherpa, we find that when these observables are calculated at NLO in QCD with parton shower matching and multijet merging, the residual theoretical uncertainties are comparable to differences observed when varying the quantum numbers of $\mathcal{Q}$ itself. We find, however, that the precision achievable with NNLO calculations, where available, can resolve this dilemma., Comment: 25 pages, 15 figures, published in EPJC

Published

2018

8. Parton Shower and NLO-Matching uncertainties in Higgs Boson Pair Production

Author

Jones, Stephen, Kuttimalai, Silvan, Jones, Stephen, and Kuttimalai, Silvan

Abstract

We perform a detailed study of NLO parton shower matching uncertainties in Higgs boson pair production through gluon fusion at the LHC based on a generic and process independent implementation of NLO subtraction and parton shower matching schemes for loop-induced processes in the Sherpa event generator. We take into account the full top-quark mass dependence in the two-loop virtual corrections and compare the results to an effective theory approximation. In the full calculation, our findings suggest large parton shower matching uncertainties that are absent in the effective theory approximation. We observe large uncertainties even in regions of phase space where fixed-order calculations are theoretically well motivated and parton shower effects expected to be small. We compare our results to NLO matched parton shower simulations and analytic resummation results that are available in the literature.

Published

2017

9. LHC multijet events as a probe for anomalous dimension-six gluon interactions

Author

Krauss, Frank, Kuttimalai, Silvan, Plehn, Tilman, Krauss, Frank, Kuttimalai, Silvan, and Plehn, Tilman

Abstract

Higher-dimensional multi-gluon interactions affect essentially all effective Lagrangian analyses at the LHC. We show that, contrary to common lore, such operators are best constrained in multi-jet production. Our limit on the corresponding new physics scale in the multi-TeV range exceeds the typical reach of global dimension-6 Higgs and top analyses. This implies that the pure Yang-Mills operator can safely be neglected in almost all specific higher-dimensional analyses at Run II.

Published

2016

10. Measuring rare and exclusive Higgs boson decays into light resonances

Author

Chisholm, Andrew S., Kuttimalai, Silvan, Nikolopoulos, Konstantinos, Spannowsky, Michael, Chisholm, Andrew S., Kuttimalai, Silvan, Nikolopoulos, Konstantinos, and Spannowsky, Michael

Abstract

We evaluate the LHC's potential of observing Higgs boson decays into light elementary or composite resonances through their hadronic decay channels. We focus on the Higgs boson production processes with the largest cross sections, $pp\to h$ and $pp\to h+\mathrm{jet}$, with subsequent decays $h \to ZA$ or $h\to Z\,\eta_c$, and comment on the production process $pp\to hZ$. By exploiting track-based jet substructure observables and extrapolating to $3000~\mathrm{fb}^{-1}$ we find ${\cal BR}(h \to ZA) \simeq {\cal BR}(h \to Z \eta_c) \lesssim 0.02$ at 95% CL. We interpret this limit in terms of the 2HDM Type 1. We find that searches for $h\to ZA$ are complementary to existing measurements and can constrain large parts of the currently allowed parameter space.

Published

2016

11. Boosting invisible searches via $\boldsymbol{ZH}$: From the Higgs Boson to Dark Matter Simplified Models

Author

Goncalves, Dorival, Krauss, Frank, Kuttimalai, Silvan, Maierhöfer, Philipp, Goncalves, Dorival, Krauss, Frank, Kuttimalai, Silvan, and Maierhöfer, Philipp

Abstract

Higgs boson production in association with a $Z$-boson at the LHC is analysed, both in the Standard Model and in Simplified Model extensions for Dark Matter. We focus on $H\rightarrow$invisibles searches and show that loop-induced components for both the signal and background present phenomenologically relevant contributions to the $\mathcal{BR}(H\rightarrow\textit{inv})$ limits. In addition, the constraining power of this channel to Simplified Models for Dark Matter with scalar and pseudo-scalar mediators $\phi$ and $A$ is discussed and compared with non-collider constraints. We find that with $100~fb^{-1}$ of LHC data, this channel provides competitive constraints to the non-collider bounds, for most of the parameter space we consider, bounding the universal Standard Model fermion-mediator strength at $g_v < 1$ for moderate masses in the range of ${100~\text{GeV}

Published

2016

12. Aspects of pQCD at a 100 TeV future hadron collider

Author

Bothmann, Enrico, Ferrarese, Piero, Krauss, Frank, Kuttimalai, Silvan, Schumann, Steffen, Thompson, Jennifer, Bothmann, Enrico, Ferrarese, Piero, Krauss, Frank, Kuttimalai, Silvan, Schumann, Steffen, and Thompson, Jennifer

Abstract

In this publication we consider particle production at a future circular hadron collider with 100 TeV centre of mass energy within the Standard Model, and in particular their QCD aspects. Accurate predictions for these processes pose severe theoretical challenges related to large hierarchies of scales and possible large multiplicities of final state particles. We investigate scaling patterns in multijet-production rates allowing to extrapolate predictions to very high final-state multiplicities. Furthermore, we consider large-area QCD jets and study the expectation for the mean number of subjets to be reconstructed from their constituents and confront these with analytical resummed predictions and with the expectation for boosted hadronic decays of top-quarks and W-bosons. We also discuss the validity of Higgs-Effective-Field-Theory in making predictions for Higgs-boson production in association with jets. Finally, we consider the case of New Physics searches at such a 100 TeV hadron-collider machine and discuss the expectations for corresponding Standard-Model background processes., Comment: 28 pages, 61 figures

Published

2016

13. Higgs-Strahlung: Merging the NLO Drell-Yan and Loop-Induced 0+1 jet Multiplicities

Author

Goncalves, Dorival, Krauss, Frank, Kuttimalai, Silvan, Maierhöfer, Philipp, Goncalves, Dorival, Krauss, Frank, Kuttimalai, Silvan, and Maierhöfer, Philipp

Abstract

We analyse the production of a Higgs boson in association with a Z boson at hadron colliders in the Standard Model and some simple extensions. We show how multi-jet merging algorithms at leading and next-to-leading order for the loop-induced gluon fusion and the Drell-Yan like quark-induced processes, respectively, improve the descriptions for various differential distributions, in particular those that involve the production of additional jets. The phenomenological studies focus on two relevant channels of Higgs boson decays, namely $H\rightarrow invisible$ and $H\rightarrow b\bar{b}$. We find sizable and phenomenologically relevant corrections to the transverse momentum and invariant mass distributions for the Higgs boson candidate. Thanks to the large destructive interference for the top Yukawa terms, this process is very sensitive to the magnitude and sign of a possible non-standard top-Higgs coupling. We analyse the impact of this anomalous interaction on distributions and estimate constraints from LHC Run II., Comment: 13 pages, 12 figures and 3 tables

Published

2015

14. Mass effects in the Higgs-gluon coupling: boosted vs. off-shell production

Author

Buschmann, Malte, Gonçalves, Dorival, Kuttimalai, Silvan, Schönherr, Marek, Krauss, Frank, Plehn, Tilman, Buschmann, Malte, Gonçalves, Dorival, Kuttimalai, Silvan, Schönherr, Marek, Krauss, Frank, and Plehn, Tilman

Abstract

In the upcoming LHC run we will be able to probe the structure of the loopinduced Higgs-gluon coupling through kinematics. First, we establish state-of-the-art simulations with up to two jets to next-to-leading order including top mass effects. They allow us to search for deviations from the low-energy limits in boosted Higgs production. In addition, the size of the top mass effects suggests that they should generally be included in Higgs studies at the LHC. Next, we show how off-shell Higgs production with a decay to four leptons is sensitive to the same top mass effects. We compare the potential of both methods based on the same top-Higgs Lagrangian. Finally, we comment on related model assumptions required for a Higgs width measurement.

Published

2015

15. Beyond Standard Model calculations with Sherpa

Author

Höche, Stefan, Kuttimalai, Silvan, Schumann, Steffen, Siegert, Frank, Höche, Stefan, Kuttimalai, Silvan, Schumann, Steffen, and Siegert, Frank

Abstract

We present a fully automated framework as part of the Sherpa event generator for the computation of tree-level cross sections in beyond Standard Model scenarios, making use of model information given in the Universal FeynRules Output format. Elementary vertices are implemented into C++ code automatically and provided to the matrix-element generator Comix at runtime. Widths and branching ratios for unstable particles are computed from the same building blocks. The corresponding decays are simulated with spin correlations. Parton showers, QED radiation and hadronization are added by Sherpa, providing a full simulation of arbitrary BSM processes at the hadron level., Comment: 13 pages, 5 figures

Published

2014

16. Mass Effects in the Higgs-Gluon Coupling: Boosted vs Off-Shell Production

Author

Buschmann, Malte, Goncalves, Dorival, Kuttimalai, Silvan, Schonherr, Marek, Krauss, Frank, Plehn, Tilman, Buschmann, Malte, Goncalves, Dorival, Kuttimalai, Silvan, Schonherr, Marek, Krauss, Frank, and Plehn, Tilman

Abstract

In the upcoming LHC run we will be able to probe the structure ofthe loop--induced Higgs--gluon coupling through kinematics. First, we establish state-of-the-art simulations with up to two jets to next-to-leading order including top mass effects. They allow us to search for deviations from the low-energy limits in boosted Higgs production. In addition, the size of the top mass effects suggests that they should generally be included in Higgs studies at the LHC. Next, we show how off-shell Higgs production with a decay to four leptons is sensitive to the same top mass effects. We compare the potential of both methods based on the same top--Higgs Lagrangian. Finally, we comment on related model assumptions required for a Higgs width measurement., Comment: 15 pages, 11 figures

Published

2014