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Resonant Multi-Scalar Production in the Generic Complex Singlet Model in the Multi-TeV Region
We develop benchmarks for resonant di-scalar production in the generic complex singlet scalar extension of the Standard Model (SM), which contains two new scalars. These benchmarks maximize di-scalar resonant production: \(pp\rightarrow h_2 \rightarrow h_1 h_1/h_1h_3/h_3h_3\), where \(h_1\) is the o...
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| creator | Lane, Samuel D Lewis, Ian M Sullivan, Matthew |
| description | We develop benchmarks for resonant di-scalar production in the generic complex singlet scalar extension of the Standard Model (SM), which contains two new scalars. These benchmarks maximize di-scalar resonant production: \(pp\rightarrow h_2 \rightarrow h_1 h_1/h_1h_3/h_3h_3\), where \(h_1\) is the observed SM-like Higgs boson and \(h_{2,3}\) are new scalars. The decays \(h_2\rightarrow h_1h_3\) and \(h_2\rightarrow h_3h_3\) may be the only way to discover \(h_3\), leading to a discovery of two new scalars at once. Current LHC and projected future collider (HL-LHC, FCC-ee, ILC500) constraints are used to produce benchmarks at the HL-LHC for \(h_2\) masses between 250 GeV and 1 TeV and a future \(pp\) collider for \(h_2\) masses between 250 GeV and 12 TeV. We update the current LHC bounds on the singlet-Higgs boson mixing angle. As the mass of \(h_2\) increases, certain limiting behaviors of the maximum rates are uncovered due to theoretical constraints on the parameters. These limits, which can be derived analytically, are \({\rm BR}(h_2\rightarrow h_1h_1)\rightarrow 0.25\), \({\rm BR}(h_2\rightarrow h_3h_3)\rightarrow 0.5\), and \({\rm BR}(h_2\rightarrow h_1h_3) \rightarrow 0\). It can also be shown that the maximum rates of \(pp\rightarrow h_2\rightarrow h_1h_1/h_3h_3\) approach the same value. Hence, all three \(h_2\rightarrow h_ih_j\) decays are promising discovery modes for \(h_2\) masses below \(\mathcal{O}(1\,{\rm TeV})\), while above \(\mathcal{O}(1\,{\rm TeV})\) the decays \(h_2\rightarrow h_1h_1/h_3h_3\) are more encouraging. Masses for \(h_3\) are chosen to produce a large range of signatures including multi-b, multi-vector boson, and multi-\(h_1\) production. The behavior of the maximum rates imply that in the multi-TeV region this model may be discovered in the Higgs quartet production mode before Higgs triple production is observed. The maximum di- and four Higgs production rates are similar in the multi-TeV range. |
| doi_str_mv | 10.48550/arxiv.2403.18003 |
| format | article |
| fullrecord | <record><control><sourceid>proquest</sourceid><recordid>TN_cdi_proquest_journals_3014333456</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>3014333456</sourcerecordid><originalsourceid>FETCH-LOGICAL-a953-3ef8ca9069c200624a66d5990ac1abe0081ff9f6e84b6ac35c891f70be63c2193</originalsourceid><addsrcrecordid>eNo1jcFKAzEURYMgWGo_wF3A9YwveUmaLGXQKlSUtriTkqZv6pQxqZkZ6edbqK7u5pxzGbsRUCqrNdz5fGx-SqkAS2EB8IKNJKIorJLyik26bg8A0kyl1jhiHwvqUvSx5y9D2zfFMvjWZ_6W03YIfZMibyLvP4nPKFJuAq_S16GlI182cdfSSUtbav-hc2NF73xBu5N8zS5r33Y0-dsxWz0-rKqnYv46e67u54V3Gguk2gbvwLggAYxU3pitdg58EH5DAFbUtasNWbUxPqAO1ol6ChsyGKRwOGa35-whp--Bun69T0OOp8c1glCIqLTBX1tgVGE</addsrcrecordid><sourcetype>Aggregation Database</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype><pqid>3014333456</pqid></control><display><type>article</type><title>Resonant Multi-Scalar Production in the Generic Complex Singlet Model in the Multi-TeV Region</title><source>Publicly Available Content Database</source><creator>Lane, Samuel D ; Lewis, Ian M ; Sullivan, Matthew</creator><creatorcontrib>Lane, Samuel D ; Lewis, Ian M ; Sullivan, Matthew</creatorcontrib><description>We develop benchmarks for resonant di-scalar production in the generic complex singlet scalar extension of the Standard Model (SM), which contains two new scalars. These benchmarks maximize di-scalar resonant production: \(pp\rightarrow h_2 \rightarrow h_1 h_1/h_1h_3/h_3h_3\), where \(h_1\) is the observed SM-like Higgs boson and \(h_{2,3}\) are new scalars. The decays \(h_2\rightarrow h_1h_3\) and \(h_2\rightarrow h_3h_3\) may be the only way to discover \(h_3\), leading to a discovery of two new scalars at once. Current LHC and projected future collider (HL-LHC, FCC-ee, ILC500) constraints are used to produce benchmarks at the HL-LHC for \(h_2\) masses between 250 GeV and 1 TeV and a future \(pp\) collider for \(h_2\) masses between 250 GeV and 12 TeV. We update the current LHC bounds on the singlet-Higgs boson mixing angle. As the mass of \(h_2\) increases, certain limiting behaviors of the maximum rates are uncovered due to theoretical constraints on the parameters. These limits, which can be derived analytically, are \({\rm BR}(h_2\rightarrow h_1h_1)\rightarrow 0.25\), \({\rm BR}(h_2\rightarrow h_3h_3)\rightarrow 0.5\), and \({\rm BR}(h_2\rightarrow h_1h_3) \rightarrow 0\). It can also be shown that the maximum rates of \(pp\rightarrow h_2\rightarrow h_1h_1/h_3h_3\) approach the same value. Hence, all three \(h_2\rightarrow h_ih_j\) decays are promising discovery modes for \(h_2\) masses below \(\mathcal{O}(1\,{\rm TeV})\), while above \(\mathcal{O}(1\,{\rm TeV})\) the decays \(h_2\rightarrow h_1h_1/h_3h_3\) are more encouraging. Masses for \(h_3\) are chosen to produce a large range of signatures including multi-b, multi-vector boson, and multi-\(h_1\) production. The behavior of the maximum rates imply that in the multi-TeV region this model may be discovered in the Higgs quartet production mode before Higgs triple production is observed. The maximum di- and four Higgs production rates are similar in the multi-TeV range.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.2403.18003</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Benchmarks ; Higgs bosons ; Large Hadron Collider ; Quarks ; Scalars</subject><ispartof>arXiv.org, 2024-09</ispartof><rights>2024. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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These benchmarks maximize di-scalar resonant production: \(pp\rightarrow h_2 \rightarrow h_1 h_1/h_1h_3/h_3h_3\), where \(h_1\) is the observed SM-like Higgs boson and \(h_{2,3}\) are new scalars. The decays \(h_2\rightarrow h_1h_3\) and \(h_2\rightarrow h_3h_3\) may be the only way to discover \(h_3\), leading to a discovery of two new scalars at once. Current LHC and projected future collider (HL-LHC, FCC-ee, ILC500) constraints are used to produce benchmarks at the HL-LHC for \(h_2\) masses between 250 GeV and 1 TeV and a future \(pp\) collider for \(h_2\) masses between 250 GeV and 12 TeV. We update the current LHC bounds on the singlet-Higgs boson mixing angle. As the mass of \(h_2\) increases, certain limiting behaviors of the maximum rates are uncovered due to theoretical constraints on the parameters. These limits, which can be derived analytically, are \({\rm BR}(h_2\rightarrow h_1h_1)\rightarrow 0.25\), \({\rm BR}(h_2\rightarrow h_3h_3)\rightarrow 0.5\), and \({\rm BR}(h_2\rightarrow h_1h_3) \rightarrow 0\). It can also be shown that the maximum rates of \(pp\rightarrow h_2\rightarrow h_1h_1/h_3h_3\) approach the same value. Hence, all three \(h_2\rightarrow h_ih_j\) decays are promising discovery modes for \(h_2\) masses below \(\mathcal{O}(1\,{\rm TeV})\), while above \(\mathcal{O}(1\,{\rm TeV})\) the decays \(h_2\rightarrow h_1h_1/h_3h_3\) are more encouraging. Masses for \(h_3\) are chosen to produce a large range of signatures including multi-b, multi-vector boson, and multi-\(h_1\) production. The behavior of the maximum rates imply that in the multi-TeV region this model may be discovered in the Higgs quartet production mode before Higgs triple production is observed. 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These benchmarks maximize di-scalar resonant production: \(pp\rightarrow h_2 \rightarrow h_1 h_1/h_1h_3/h_3h_3\), where \(h_1\) is the observed SM-like Higgs boson and \(h_{2,3}\) are new scalars. The decays \(h_2\rightarrow h_1h_3\) and \(h_2\rightarrow h_3h_3\) may be the only way to discover \(h_3\), leading to a discovery of two new scalars at once. Current LHC and projected future collider (HL-LHC, FCC-ee, ILC500) constraints are used to produce benchmarks at the HL-LHC for \(h_2\) masses between 250 GeV and 1 TeV and a future \(pp\) collider for \(h_2\) masses between 250 GeV and 12 TeV. We update the current LHC bounds on the singlet-Higgs boson mixing angle. As the mass of \(h_2\) increases, certain limiting behaviors of the maximum rates are uncovered due to theoretical constraints on the parameters. These limits, which can be derived analytically, are \({\rm BR}(h_2\rightarrow h_1h_1)\rightarrow 0.25\), \({\rm BR}(h_2\rightarrow h_3h_3)\rightarrow 0.5\), and \({\rm BR}(h_2\rightarrow h_1h_3) \rightarrow 0\). It can also be shown that the maximum rates of \(pp\rightarrow h_2\rightarrow h_1h_1/h_3h_3\) approach the same value. Hence, all three \(h_2\rightarrow h_ih_j\) decays are promising discovery modes for \(h_2\) masses below \(\mathcal{O}(1\,{\rm TeV})\), while above \(\mathcal{O}(1\,{\rm TeV})\) the decays \(h_2\rightarrow h_1h_1/h_3h_3\) are more encouraging. Masses for \(h_3\) are chosen to produce a large range of signatures including multi-b, multi-vector boson, and multi-\(h_1\) production. The behavior of the maximum rates imply that in the multi-TeV region this model may be discovered in the Higgs quartet production mode before Higgs triple production is observed. 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| subjects | Benchmarks Higgs bosons Large Hadron Collider Quarks Scalars |
| title | Resonant Multi-Scalar Production in the Generic Complex Singlet Model in the Multi-TeV Region |
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