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CERN Document Server 52 záznamov nájdených  1 - 10ďalšíkoniec  skoč na záznam: Hľadanie trvalo 1.41 sekúnd. 
1.
The International Linear Collider: Report to Snowmass 2021 / ILC International Development Team Collaboration
The International Linear Collider (ILC) is on the table now as a new global energy-frontier accelerator laboratory taking data in the 2030s. [...]
arXiv:2203.07622 ; DESY-22-045 ; IFT-UAM/CSIC-22-028 ; KEK Preprint 2021-61 ; IFT--UAM/CSIC--22-028 ; KEK Preprint 2021-61, PNNL-SA-160884 ; SLAC-PUB-17662 ; FERMILAB-FN-1171-PPD-QIS-SCD-TD ; PNNL-SA-160884.
- 356.
Fermilab Library Server - eConf - FUlltext - Fulltext
2.
Complementary collider and astrophysical probes of multi-component Dark Matter / Hernandez-Sanchez, Jaime (Puebla U., Inst. Fis.) ; Keus, Venus (Dublin Inst. ; Helsinki U. ; Helsinki Inst. of Phys. ; Southampton U.) ; Moretti, Stefano (Southampton U. ; Rutherford ; Uppsala U.) ; Sokolowska, Dorota (Warsaw U. ; IFRN, Rio Grande do Norte)
We study a new physics scenario with two inert and one active scalar doublets, hence a 3-Higgs Doublet Model (3HDM). [...]
arXiv:2202.10514 ; DIAS-STP-22-01.
- 21 p.
Fulltext
3.
Enhancing the Large Hadron Collider Sensitivity to Charged and Neutral Broad Resonances of New Gauge Sectors / Fiaschi, Juri (Liverpool U., Dept. Math.) ; Giuli, Francesco (CERN ; INFN, Rome2 ; Rome U., Tor Vergata) ; Hautmann, Francesco (Antwerp U. ; Oxford U.) ; Moretti, Stefano (Southampton U.)
In scenarios beyond the Standard Model (BSM) characterized by charged ($W^\prime$) or neutral ($Z^\prime$) massive gauge bosons with large width, resonant mass searches are not very effective, so that one has to exploit the tails of the mass distributions measured at the Large Hadron Collider (LHC). In this case, the LHC sensitivity to new physics signals is influenced significantly by systematic uncertainties associated with the Parton Distribution Functions (PDF), particularly in the valence quark sector relevant for the multi-TeV mass region. [...]
arXiv:2111.09698; LTH 1277.- 2022-02-22 - 16 p. - Published in : JHEP 02 (2022) 179 Fulltext: 2111.09698 - PDF; document - PDF;
4.
Complementarity of Lepton-Charge and Forward-Backward Drell-Yan Asymmetries for Precision Electroweak Measurements and Quark Density Determinations / Fiaschi, Juri (Liverpool U., Dept. Math.) ; Giuli, Francesco (CERN ; INFN, Rome2 ; Rome U., Tor Vergata) ; Hautmann, Francesco (Antwerp U. ; Oxford U.) ; Moretti, Stefano (Southampton U.)
We address the impact of future measurements of charged and neutral current Drell-Yan (DY) asymmetries and their combination on Parton Distribution Functions (PDFs) uncertainties. We quantify the reduction of PDF uncertainties using the QCD tool xFitter. [...]
arXiv:2107.03099; LTH 1263.- 2022-07-12 - 6 p.
- Published in : SciPost Phys. Proc.: 8 (2022) , pp. 038 Fulltext: document - PDF; 2107.03099 - PDF;
In : XXVIII International Workshop on Deep-Inelastic Scattering and Related Subjects, Online, Online, 12 - 16 Apr 2021, pp.038
5.
Dark Matter Signals at the LHC from a 3HDM / Rojas-Ciofalo, Diana (Southampton U.) ; Cordero, Adriana (Puebla U., Inst. Fis.) ; Hernández-Sánchez, Jaime (Puebla U., Inst. Fis.) ; Keus, Venus (Helsinki Inst. of Phys. ; Helsinki U.) ; Moretti, Stefano (Southampton U.) ; Sokolowska, Dorota (IIP, Brazil)
We analyse new signals of Dark Matter (DM) at the Large Hadron Collider (LHC) in a 3-Higgs Doublet Model (3HDM) where only one doublet acquires a Vacuum Expectation Value (VEV), preserving a parity $Z_2$. The other two doublets are inert and do not develop a VEV, leading to a dark scalar sector controlled by $Z_2$, with the lightest CP-even dark scalar $H_1$ being the DM candidate. [...]
arXiv:1907.12522; PoS(LHCP2019)013.- SISSA, 2019-07-30 - 18 p. - Published in : PoS LHCP2019 (2019) 013 Fulltext: 1907.12522 - PDF; PoS(LHCP2019)013 - PDF; External links: 00007 The anatomy of scenario I10. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. At the bottom we show the dominant couplings in each process in Log scale with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00003 The anatomy of scenario I5. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. At the bottom we show the dominant couplings in each process in Log scale with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00006 The anatomy of scenario I5. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. At the bottom we show the dominant couplings in each process in Log scale with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00005 The anatomy of scenario I5. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. At the bottom we show the dominant couplings in each process in Log scale with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00001 The anatomy of scenario I10. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. At the bottom we show the dominant couplings in each process in Log scale with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00000 The anatomy of scenario I10. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. At the bottom we show the dominant couplings in each process in Log scale with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00008 The anatomy of scenario A50. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. The red regions are ruled out by LHC ($m_{DM} < 53$ GeV) and by direct detection ($m_{DM} > 73$ GeV). At the bottom we show the dominant couplings in each process with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00002 The anatomy of scenario A50. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. The red regions are ruled out by LHC ($m_{DM} < 53$ GeV) and by direct detection ($m_{DM} > 73$ GeV). At the bottom we show the dominant couplings in each process with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.; 00004 The anatomy of scenario A50. The plots on the top show the cross-sections of the tree-level, ggF and VBF processes with leptonic (left) and hadronic (right) final states. The red regions are ruled out by LHC ($m_{DM} < 53$ GeV) and by direct detection ($m_{DM} > 73$ GeV). At the bottom we show the dominant couplings in each process with the same color coding where the Higgs-DM coupling is shown for reference. Note that the $g_{hH_1H_2}$ appears with the $K$-factor in the cross-section calculations.
In : 7th Edition of the Large Hadron Collider Physics Conference, Puebla, Mexico, 20 May 2019, pp.013
6.
Lepton-Charge and Forward-Backward Asymmetries in Drell-Yan Processes for Precision Electroweak Measurements and New Physics Searches / Fiaschi, Juri (Liverpool U., Dept. Math.) ; Giuli, Francesco (CERN ; INFN, Rome2 ; Rome U., Tor Vergata) ; Hautmann, Francesco (Antwerp U. ; Oxford U.) ; Moretti, Stefano (Southampton U.)
Precision determinations of Standard Model (SM) Electro-Weak (EW) parameters at the Large Hadron Collider (LHC) are dominated by uncertainties due to Parton Distribution Functions (PDFs). Reweighting and profiling techniques are routinely employed to treat this. [...]
arXiv:2103.10224; LTH 1259.- 2021-07 - 20 p. - Published in : Nucl. Phys. B 968 (2021) 115444 Article from SCOAP3: PDF; Fulltext: PDF;
7.
${}^8$Be Decay Anomaly and Light $Z'$ / Delle Rose, Luigi (Southampton U. ; INFN, Florence ; Florence U.) ; Khalil, Shaaban (Zewail City Sci. Technol., Giza) ; King, Simon J.D. (Southampton U. ; INFN, Padua ; Padua U.) ; Moretti, Stefano (Southampton U. ; Rutherford) ; Thabt, Ahmed M. (Zewail City Sci. Technol., Giza)
In this proceedings, we discuss a light (17 MeV) $Z'$ solution to the anomaly observed in the decay of Beryllium-8 by the Atomki collaboration. We detail an anomaly free model with minimal particle content which can satisfy all other experimental constraints with gauge couplings $\mathcal{O}(10^{-4})$..
arXiv:1905.05031.- 2019 - 4 p. - Published in : (2019) , pp. 423-426 Fulltext: PDF;
In : 54th Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy, 16 - 23 Mar 2019, pp.423-426
8.
Strong Dynamics for Physics within and beyond the Standard Model at LHC and Future Colliders - LFC19   9 - 13 Sep 2019  - Trento, Italy  / Corcella, Gennaro (ed.); De Curtis, Stefania (ed.); Moretti, Stefano (ed.); Pancheri, Giulia (ed.); Tenchini, Roberto (ed.); Vos, Marcel (ed.)
Frascati : INFN, 2017
9.
Reinterpretation of LHC Results for New Physics: Status and Recommendations after Run 2 / Abdallah, Waleed (Harish-Chandra Res. Inst. ; Cairo U.) ; AbdusSalam, Shehu (Shahid Beheshti U.) ; Ahmadov, Azar (Baku State U.) ; Ahriche, Amine (ICTP, Trieste ; Algiers, Ecole Normale Superieure) ; Alguero, Gaël (LPSC, Grenoble) ; Allanach, Benjamin C. (Unlisted ; Cambridge U., DAMTP) ; Araz, Jack Y. (Concordia U., Montreal) ; Arbey, Alexandre (IP2I, Lyon ; CERN) ; Arina, Chiara (Louvain U., CP3) ; Athron, Peter (Monash U.) et al. /LHC Reinterpretation Forum
We report on the status of efforts to improve the reinterpretation of searches and measurements at the LHC in terms of models for new physics, in the context of the LHC Reinterpretation Forum. We detail current experimental offerings in direct searches for new particles, measurements, technical implementations and Open Data, and provide a set of recommendations for further improving the presentation of LHC results in order to better enable reinterpretation in the future. [...]
arXiv:2003.07868; CERN-LPCC-2020-001; FERMILAB-FN-1098-CMS-T; Imperial/HEP/2020/RIF/01.- 2020-08-21 - 58 p. - Published in : SciPost Phys. 9 (2020) 022 Fulltext: 2003.07868 - PDF; fermilab-fn-1098-cms-t - PDF; Fulltext from Publisher: PDF; External link: Fermilab Library Server (fulltext available)
10.
PDF Profiling Using the Forward-Backward Asymmetry in Neutral Current Drell-Yan Production / Accomando, Elena (Southampton U. ; Rutherford) ; Fiaschi, Juri (Munster U., ITP ; Southampton U. ; Rutherford) ; Hautmann, Francesco (Rutherford ; Antwerp U. ; Oxford U., Theor. Phys. ; U. Basque Country, Leioa ; CERN) ; Moretti, Stefano (Southampton U. ; Rutherford) ; Bertone, Valerio (Pavia U.) ; Giuli, Francesco (Rome U., Tor Vergata ; INFN, Rome2) ; Abdolmaleki, Hamen (Semnan U.) ; Luszczak, Agnieszka (Cracow Tech. U.) ; Glazov, Alexander (DESY) ; Olness, Fred (Southern Methodist U.) et al. /xFitter Developers' team
Non-perturbative QCD effects from Parton Distribution Functions (PDFs) may be constrained by using high-statistics Large Hadron Collider (LHC) data. Drell-Yan (DY) measurements in the Charged Current (CC) case provide one of the primary means to do this, in the form of the lepton charge asymmetry. [...]
arXiv:1907.07727; DESY-19-127; MS-TP-19-19; CERN-TH-2019-110.- 2019-10-15 - 21 p. - Published in : JHEP 1910 (2019) 176 Article from SCOAP3: scoap3-fulltext - PDF; scoap - PDF; Fulltext: PDF;

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