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  1. 2581
    “…Along these lines, we optimally digitize fermionic models of molecular structure with single-qubit and two-qubit gates, by means of Trotter-Suzuki decomposition and Jordan-Wigner transformation. …”
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    Online Artículo Texto
    Quantum chemistry and charge transport in biomolecules with superconducting circuits
  2. 2582
    por Wang, P., Lin, S., Zhang, G., Song, Z.
    Publicado 2018
    “…By introducing edge-mode fermionic operator and pseudo-spin representation, we find that such edge modes are always associated with maximal entanglement between two edges of the tube, which is independent of the size of the system.…”
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    Maximal distant entanglement in Kitaev tube
  3. 2583
    por CMS Collaboration
    Publicado 2011
    “…Limits are set on the production of the Higgs boson in the context of the Standard Model and in the presence of a sequential fourth family of fermions with high masses. The standard model Higgs is excluded in the mass range $340 - 375$~GeV/c$^{2}$ at 95\% percent confidence level.…”
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    H to ZZ to 2l2nu
  4. 2584
    por Mitsou, V A
    Publicado 2014
    “…A wide range of signatures are covered motivated by various theoretical scenarios and topologies: strong production, third-generation fermions, long-lived particles and R-parity violation among others. …”
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    Highlights from SUSY Searches with ATLAS
  5. 2585
    por Khalil, Shaaban, Moretti, Stefano
    Publicado 2017
    “…The authors discuss non-minimal supersymmetry models, in a bottom-up approach that interconnects experimental phenomena in the fermionic and bosonic sectors, many of which postdate the inception of supersymmetry, such as the discovery of neutrino masses and the evidence of a Higgs boson, or which are simply not covered in previous textbooks, like CP and lepton flavour violation.…”
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    Supersymmetry beyond minimality: from theory to experiment
  6. 2586
    por Mamuzic, Judita
    Publicado 2017
    “…It postulates a fundamental symmetry between fermions and bosons, and introduces a set of new supersymmetric particles at the electroweak scale. …”
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    SUSY Searches at ATLAS
  7. 2587
    por Sioli, Maximiliano
    Publicado 2018
    “…The ATLAS searches presented here focus on models in which these heavy neutral leptons are either produced together with a right-handed W gauge boson, via the Keung-Senjanovic process, or with a heavy charged lepton from the same fermionic triplet, in the context of a type-III seesaw model. …”
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    Searches for Heavy Neutrinos with the ATLAS Detector
  8. 2588
    por Anthony, Matthew Thomas
    Publicado 2019
    “…In models with enhanced couplings to third generation quarks or heavy fermions, this production mechanism is the dominant mode at the LHC. …”
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    Search for dark matter in third generation quarks in ATLAS
  9. 2589
    por Mitsou, Vasiliki A.
    Publicado 2020
    “…A wide range of signatures are covered motivated by various theoretical scenarios and topologies: strong production, third-generation fermions, electroweak production, R-parity violation and long-lived particles. …”
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    SUSY searches in ATLAS and CMS
  10. 2590
    por Mann, Alexander
    Publicado 2021
    “…The ATLAS experiment has a broad program of direct searches for leptoquarks, coupling to the first-, second- or third-generation fermions. This talk will give an overview of the general ATLAS strategy in the search for leptoquarks and present the most recent 13-TeV results on searches for leptoquarks and contact interactions with the ATLAS detector, covering flavour-diagonal and cross-generational final states.…”
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    Searches for Leptoquarks With the ATLAS Detector
  11. 2591
    por Gee, Carolyn
    Publicado 2022
    “…With the full Run 2 pp collision dataset collected at 13 TeV, very detailed measurements of Higgs boson properties and its interactions can be performed using its decays into bosons and fermions, shining light over the electroweak symmetry breaking mechanism. …”
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    Measurements of the Higgs boson properties and their interpretations with the ATLAS experiment
  12. 2592
    por Riotto, Antonio
    Publicado 2000
    “…We will also review recent related results in understanding the production of very heavy fermions through preheating after inflation. (19 refs).…”
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    Superheavy dark matter
  13. 2593
    por Hohlfeld, Marc
    Publicado 2000
    “…In the present note it has been studied with what precision parameters like the Higgs boson mass, production rates, couplings to bosons and fermions, total width and spin can be measured in the ATLAS experiment. …”
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    On the determination of Higgs parameters in the ATLAS experiment at the LHC
  14. 2594
    por Nir, Yosef
    Publicado 2004
    “…Generic extensions of the Standard Model predict that neutrinos are massive (but, very likely, much lighter than the charged fermions). Therefore, the search for neutrino masses and mixing tests the Standard Model and probes new phasics. …”
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    Neutrinos
  15. 2595
    por Abbiendi, G., Ackerstaff, K., Alexander, G., Allison, John, Altekamp, N., Anderson, K.J., Anderson, S., Arcelli, S., Asai, S., Ashby, S.F., Axen, D., Azuelos, G., Ball, A.H., Barberio, E., Barlow, Roger J., Bartoldus, R., Batley, J.R., Baumann, S., Bechtluft, J., Behnke, T., Bell, Kenneth Watson, Bella, G., Bellerive, A., Bentvelsen, S., Bethke, S., Betts, S., Biebel, O., Biguzzi, A., Bird, S.D., Blobel, V., Bloodworth, I.J., Bobinski, M., Bock, P., Bohme, J., Bonacorsi, D., Boutemeur, M., Braibant, S., Bright-Thomas, P., Brigliadori, L., Brown, Robert M., Burckhart, H.J., Burgard, C., Burgin, R., Capiluppi, P., Carnegie, R.K., Carter, A.A., Carter, J.R., Chang, C.Y., Charlton, David G., Chrisman, D., Ciocca, C., Clarke, P.E.L., Clay, E., Cohen, I., Conboy, J.E., Cooke, O.C., Couyoumtzelis, C., Coxe, R.L., Cuffiani, M., Dado, S., Dallavalle, G.Marco, Davis, R., De Jong, S., del Pozo, L.A., de Roeck, A., Desch, K., Dienes, B., Dixit, M.S., Dubbert, J., Duchovni, E., Duckeck, G., Duerdoth, I.P., Eatough, D., Estabrooks, P.G., Etzion, E., Evans, H.G., Fabbri, F., Fanti, M., Faust, A.A., Fiedler, F., Fierro, M., Fleck, I., Folman, R., Furtjes, A., Futyan, D.I., Gagnon, P., Gary, J.W., Gascon, J., Gascon-Shotkin, S.M., Gaycken, G., Geich-Gimbel, C., Giacomelli, G., Giacomelli, P., Gibson, V., Gibson, W.R., Gingrich, D.M., Glenzinski, D., Goldberg, J., Gorn, W., Grandi, C., Gross, E., Grunhaus, J., Gruwe, M., Hanson, G.G., Hansroul, M., Hapke, M., Harder, K., Hargrove, C.K., Hartmann, C., Hauschild, M., Hawkes, C.M., Hawkings, R., Hemingway, R.J., Herndon, M., Herten, G., Heuer, R.D., Hildreth, M.D., Hill, J.C., Hillier, S.J., Hobson, P.R., Hocker, James Andrew, Homer, R.J., Honma, A.K., Horvath, D., Hossain, K.R., Howard, R., Huntemeyer, P., Igo-Kemenes, P., Imrie, D.C., Ishii, K., Jacob, F.R., Jawahery, A., Jeremie, H., Jimack, M., Jones, C.R., Jovanovic, P., Junk, T.R., Karlen, D., Kartvelishvili, V., Kawagoe, K., Kawamoto, T., Kayal, P.I., Keeler, R.K., Kellogg, R.G., Kennedy, B.W., Klier, A., Kluth, S., Kobayashi, T., Kobel, M., Koetke, D.S., Kokott, T.P., Kolrep, M., Komamiya, S., Kowalewski, Robert V., Kress, T., Krieger, P., von Krogh, J., Kuhl, T., Kyberd, P., Lafferty, G.D., Lanske, D., Lauber, J., Lautenschlager, S.R., Lawson, I., Layter, J.G., Lazic, D., Lee, A.M., Lellouch, D., Letts, J., Levinson, L., Liebisch, R., List, B., Littlewood, C., Lloyd, A.W., Lloyd, S.L., Loebinger, F.K., Long, G.D., Losty, M.J., Ludwig, J., Lui, D., Macchiolo, A., Macpherson, A., Mader, W., Mannelli, M., Marcellini, S., Markopoulos, C., Martin, A.J., Martin, J.P., Martinez, G., Mashimo, T., Mattig, Peter, McDonald, W.John, McKenna, J., Mckigney, E.A., McMahon, T.J., McPherson, R.A., Meijers, F., Menke, S., Merritt, F.S., Mes, H., Meyer, J., Michelini, A., Mihara, S., Mikenberg, G., Miller, D.J., Mir, R., Mohr, W., Montanari, A., Mori, T., Nagai, K., Nakamura, I., Neal, H.A., Nellen, B., Nisius, R., O'Neale, S.W., Oakham, F.G., Odorici, F., Ogren, H.O., Oreglia, M.J., Orito, S., Palinkas, J., Pasztor, G., Pater, J.R., Patrick, G.N., Patt, J., Perez-Ochoa, R., Petzold, S., Pfeifenschneider, P., Pilcher, J.E., Pinfold, J., Plane, David E., Poffenberger, P., Polok, J., Przybycien, M., Rembser, C., Rick, H., Robertson, S., Robins, S.A., Rodning, N., Roney, J.M., Roscoe, K., Rossi, A.M., Rozen, Y., Runge, K., Runolfsson, O., Rust, D.R., Sachs, K., Saeki, T., Sahr, O., Sang, W.M., Sarkisian, E.K.G., Sbarra, C., Schaile, A.D., Schaile, O., Scharf, F., Scharff-Hansen, P., Schieck, J., Schmitt, B., Schmitt, S., Schoning, A., Schroder, Matthias, Schumacher, M., Schwick, C., Scott, W.G., Seuster, R., Shears, T.G., Shen, B.C., Shepherd-Themistocleous, C.H., Sherwood, P., Siroli, G.P., Sittler, A., Skuja, A., Smith, A.M., Snow, G.A., Sobie, R., Soldner-Rembold, S., Sproston, M., Stahl, A., Stephens, K., Steuerer, J., Stoll, K., Strom, David M., Strohmer, R., Surrow, B., Talbot, S.D., Tanaka, S., Taras, P., Tarem, S., Teuscher, R., Thiergen, M., Thomson, M.A., von Torne, E., Torrence, E., Towers, S., Trigger, I., Trocsanyi, Z., Tsur, E., Turcot, A.S., Turner-Watson, M.F., Van Kooten, Rick J., Vannerem, P., Verzocchi, M., Voss, H., Wackerle, F., Wagner, A., Ward, C.P., Ward, D.R., Watkins, P.M., Watson, A.T., Watson, N.K., Wells, P.S., Wermes, N., White, J.S., Wilson, G.W., Wilson, J.A., Wyatt, T.R., Yamashita, S., Yekutieli, G., Zacek, V., Zer-Zion, D.
    Publicado 1998
    “…Exclusion regions at 95% confidence level of parameters of the Constrained Minimal Supersymmetric Standard Model are determined for the case of a large universal scalar mass, m_0, implying heavy scalar fermions, and for the case of a small m_0 resulting in light scalar fermions and giving the worst-case limits. …”
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    Search for Chargino and Neutralino Production at $\sqrt{s}$ = 181-184 GeV at LEP
  16. 2596
    “…Taking a bottom-up point of view and focussing on the lack of signals so far in the Higgs and in the flavour sectors, we argue in favour of giving consideration to supersymmetric extensions of the Standard Model where the lightest Higgs boson has a mass between 200 and 300 GeV and the first two generations of s-fermions are above 20 TeV. After examining the simplest extensions of the Minimal Supersymmetric Standard Model that allow this in a natural way, we summarize the main consequences of this pattern of masses at the LHC and we analyze the consequences of a heavier than normal Higgs boson for Dark Matter.…”
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    info:eu-repo/semantics/article
    A Non Standard Supersymmetric Spectrum
  17. 2597
    por Ellis, John, You, Tevong
    Publicado 2012
    “…The CMS, ATLAS and Tevatron data are compatible with Standard Model couplings to massive gauge bosons and fermions, and disfavour several types of composite Higgs models unless their couplings resemble those in the Standard Model. …”
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    Global Analysis of the Higgs Candidate with Mass ~ 125 GeV
  18. 2598
    por Botta, Valeria
    Publicado 2017
    “…This measurement is the first observation of the Higgs boson decay into fermions by a single experiment.…”
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    Study of the Standard Model Higgs boson decaying to taus at CMS
  19. 2599
    “…We will discuss the topological interactions of a minimal composite Higgs model with fermionic ultraviolet completion, based on the coset SU(4)/Sp(4). …”
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    Revealing BSM composite dynamics via topological interactions at future colliders
  20. 2600
    por Sioli, Maximiliano
    Publicado 2018
    “…The ATLAS searches presented here focus on models in which these heavy neutral leptons are either produced together with a right-handed W gauge boson, via the Keung-Senjanović process, or with a heavy charged lepton from the same fermionic triplet, in the context of a type-III seesaw model. …”
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    Searches for heavy neutrinos with the ATLAS detector
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