Research Article
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Year 2019, Volume: 61 Issue: 1, 111 - 128, 30.06.2019
https://doi.org/10.33769/aupse.560812

Abstract

References

  • Terazawa H., Chikashige Y., and Akama K., Unified Model of the Nambu-Jona-Lasino Type for all Elementary Particle Forces, Phys. Rev. D 15-2 (1977) 480-487.
  • Neeman Y., Primitive Particle Model, Phys. Lett. 82B-1 (1979) 69-70.
  • Terazawa H., Yasue M., Akama K., and Hayashi M., Observable Effects of the Possible Sub-structure of Leptons and Quarks, Phys. Lett. 112B 4-5 (1982) 387-392.
  • Renard F. M., Excited Quarks and New Hadronic States, Il Nuovo Cimento A 77-1 (1983) 1-20.
  • Eichten E. J., Lane K. D., and Peskin M. E., New Tests for Quark and Lepton Substructure, Phys. Rev. Lett. 50-11 (1983) 811-814.
  • de Rujula A., Maiani L., and Petronzio R., Search for Excited Quarks, Phys. Lett. 140B 3-4 (1984) 253-258.
  • Cabibbo N., Maiani L., and Srivastava Y. N., Anomalous Z Decays: Excited Leptons?, Phys. Lett. 139B 5-6 (1984) 459-463.
  • Kühn J. and Zerwas P. M., Excited Quarks and Leptons, Phys. Lett. 147B 1-3 (1984) 189-196.
  • Hagiwara K., Komamiya S., and Zeppenfeld D., Excited Lepton Production at LEP and HERA, Z. für Physik C 29-1 (1985) 115-122.
  • Boudjema F., Djouadi A., and Kneur J. L., Excited Fermions at e+e- and eP Colliders, Z. für Physik C 57-3 (1993) 425-449.
  • Cakir O., Yilmaz A., and Sultansoy S., Single Production of Excited Electrons at Future e+e-, ep and pp Colliders, Phys. Rev. D 70-7 (2004) 075011.
  • Cakir O., Turk Cakir I., and Kirca Z., Single Production of Excited Neutrinos at Future e+e-, ep and pp Colliders Phys. Rev. D 70-7 (2004) 075017.
  • Caliskan A., Kara S. O., and Ozansoy A., Excited Muon Searches at the FCC-Based Muon-Hadron Colliders, Adv. High Energy Phys. 2017 (2017) 1540243.
  • Caliskan A., Excited Neutrino Search Potential of the FCC-Based Electron-Hadron Colliders, Adv. High Energy Phys. 2017 (2017) 4726050.
  • Caliskan A. and Kara S. O., Single Production of the Excited Electrons at the Future FCC-Based Lepton-Hadron Colliders, Int. J. Mod. Phys. A 33-24 (2018) 1850141.
  • Ginzburg I. F. and Ivanov D. Yu., Excited Leptons and Quarks at  / e Colliders, Phys. Lett. B276 1-2 (1992) 214-218.
  • Koksal M., Analysis of Excited Neutrinos at the CLIC, Int. J. Mod. Phys. A 29-24 (2014) 1450138.
  • Ozansoy A. and Billur A. A., Search for Excited Electrons Through  Scattering, Phys. Rev. D 86-5 (2012) 055008.
  • Kirca Z., Cakir O., and Aydin Z. Z., Production of Excited Electrons at TESLA and CLIC Based e gamma Colliders, Acta Phys. Polon. B 34-8 (2003) 4079.
  • Eboli O. J., Lietti S. M., and Mathews P., Excited Leptons at the CERN Large Hadron Collider, Phys. Rev. D 65-7 (2002) 075003.
  • Inan S. C., Exclusive Excited Leptons Search in Two Lepton Final States at the CERN LHC, Phys. Rev. D81-11 (2010) 115002.
  • Cakir O., Leroy C., Mehdiyev R., and Belyaev A., Production and Decay of Excited Electrons at the LHC, Eur. Phys. J. C 32-2 (2004) s1-s17.
  • Belyaev A., Leroy C., and Mehdiyev R., Production of Excited Neutrinos at the LHC, Eur. Phys. J. C 41-2 (2005) 1-10.
  • Boos E., Volodgin A., Toback D., and Gaspard J., Prospects of Searching for Excited Leptons During Run II of the Fermilab Tevatron, Phys. Rev. D 66-1 (2002) 013011.
  • Baur U., Spira M., and Zerwas P. M., Excited Quark and Lepton Production at Hadron Colliders, Phys. Rev. D 42-3 (1990) 815-824.
  • Pancheri G. and Srivastava Y. N., Weak Isospin Spectroscopy of Excited Quarks and Leptons, Phys. Lett. 146B (1984) 87-94.
  • Carwardine J. (Editorial Board Chair), The International Linear Collider Technical Design Report – Volume 3. II: Accelerator Baseline Design, (2013) https://arxiv.org/abs/1306.6328.
  • Aicheler M., Burrows P., Draper M., Garvey T., Lebrun P., Peach K., Phinney N., Schmickler H., Schulte D., and Toge N. (editors), A Multi-TeV Linear Collider Based on CLIC Technology: CLIC Conceptual Design Report, CERN-2012-007, KEK Report JAI-2012-001, 2012-1, PSI-12-01, SLAC-R-985, CERN, Geneva, Switzerland, (2012)
  • https://edms.cern.ch/ui/file/1234244/7/CERN-2012-007.pdf.
  • Delahaye J-P., Ankenbrandt C., Bogacz A., Brice S., Bross A., Denisov D., Eichten E., Huber P., Kaplan D. M., Kirk H., Lipton R., Neuffer D., Palmer M. A., Palmer R., Ryne R., and Snopok P. (editors), Enabling Intensity and Energy Frontier Science with a Muon Accelerator Facility in the U.S. : A White Paper Submitted to the 2013 U.S. Community Summer Study of the Division of Particles and Fields of the American Society, FERMILAB-CONF-13-307-APC (2013), https://arxiv/org/abs/1308.0494
  • Palmer R. B., Muon Colliders, Rev. Accel. Science and Technology 7 (2014) 137-159.
  • Zimmermann F., LHC/FCC-Based Muon Colliders, 9th Int. Particle Accel. Conference, IPAC2018, doi:10.18429/JACow-IPAC2018-MOPMF065 (2018) 273-276.
  • Future Circular Collider Study (FCC), https://fcc.web.cern.ch
  • Bicer M. et al. (The TLEP Design Study Working Group), First Look at the Physics Case of TLEP, Journal of High Energy Physics 2014-1 (2014) 164.
  • Acar Y. C., Akay A. N., Beser S., Canbay A. C., Karadeniz H., Kaya U., and Oner B.B., Future Circular Collider Based Lepton-Hadron and Photon-Hadron Colliders: Luminosity and Physics, Nuclear Inst. and Methods in Phys. Research A 871 (2017) 47-53.
  • Su F., Gao J., Xiao M., Wang D., Wang Y-W., Bai S., Bian T-J., Method Study of Parameter Choice for a Circular Proton-Proton Collider Chin. Phys. C 40-1 (2016) 017001.
  • Abelleira Fernandez J. L. et al. (LHeC Study Group), A Large Hadron Electron Collider at CERN, Journal of Phys. G 39 (2012) 075001.
  • Bruening O. and Klein M., The Large Hadron Electron Collider, Mod. Phys. Lett. A 28 - 16 (2013) 1330011.
  • Canbay A. C., Kaya U., Ketenoglu B., Oner B. B., and Sultansoy S., Adv. in High Energy Phys. 2017 (2017) 4021493.
  • Kaya U., Ketenoglu B., and Sultansoy S., The LHC Based p Colliders, (2018) https://arxiv.org/abs/1807.09867.
  • Chua C. K. and Law S. S. C., Phenomenological Constraints on Minimally Coupled Exotic Lepton Triplets, Phys. Rev D 83 (2011) 055010.
  • Foot R., Lew H., He X. G., and Joshi G. C., Seesaw Neutrino Masses Induced by a Triplet of Leptons, Zür. Phys. C 44 (1989) 441-444.
  • Kumericki K., Picek I., and Radovcic B., Exotic Seesaw-Motivated Heavy Leptons at the LHC, Phys. Rev. D 84 (2011) 093002.
  • Demir D. A., Frank M., Huitu K., Kumar Rai S., and Turan I., Signals of Doubly-Charged Higgsinos at the CERN Large Hadron Collider, Phys. Rev. D 78 (2008) 035013.
  • Franceschini M. and Mohapatra R., Radiatively Induced Type II Seesaw Models and Vectorlike 5/3 Charge Quarks, Phys. Rev. D 89-5 (2014) 055013.
  • Dutta B., Mohapatra R. N., and Muller D. J., The Signature at the Tevatron for the Light Doubly Charged Higgsino of the Supersymmetric Left-Right Model, Phys. Rev. D 60 (1999) 095005.
  • Chacko Z. and Mohapatra R. N., Supersymmetric Left-Right Model and Light Doubly Charged Higgs Bosons and Higgsinos, Phys. Rev. D 58 (1998) 015003.
  • Frank M., Doubly Charged Higgsino Mediated Lepton Flavor Violating Decays, Phys. Rev. D 62 (2000) 053004.
  • Cirelli M., Fornengo N., and Strumia A., Minimal Dark Matter, Nucl. Phys. B 753 (2006) 178-194.
  • del Aguila F., de Blas J., and Perez-Victoria M., Effects of New Leptons in Electroweak Precision Data, Phys. Rev. D 78 (2008) 013010.
  • Cvetic M., Halverson J., and Langacker P., Implications of String Constraints for Exotic Matter and Z’ s Beyond the Standart Model, Journal of High Energy Phys. 1111 (2011) 058.
  • Delgado A., Garcia Cely C., Han T., and Wang Z., Phenomenology of Lepton Triplet, Phys. Rev. D 84 (2011) 073007.
  • Biondini S., Panella O., Pancheri G., Srivastava Y. N., and Fano L., Phenomenology of Excited Doubly Charged Heavy Leptons at the LHC, Phys. Rev. D 85 (2012) 095018.
  • Alloul A., Frank M., Fuks B., and de Traubenberg M. R., Doubly-Charged Particles at the Large Hadron Collider, Phys. Rev. D 88 (2013) 075004.
  • Leonardi R., Panella O., and Fano L., Doubly Charged Heavy Leptons at LHC via Contact Interactions, Phys. Rev. D 90-3 (2014) 035001.
  • You Y., Chong-Xing Y., and Yun X., Pair Production of the Doubly Charged Leptons via Electroweak Vector Boson Fusion at the Large Hadron Collider, Chin. Phys. Lett. 31 (2014) 021201.
  • Ma T., Zhang B., and Cacciapaglia G., Triplet with a Doubly-Charged Lepton at the LHC, Phys. Rev. D 89-1 015020 (2014); Doubly Charged Lepton from an Exotic Doublet at the LHC, Phys. Rev. D 89-9 (2014) 093022.
  • Yu Y., Yue C-X., and Yang S., Signatures of the Quintuplet Leptons at the LHC, Phys. Rev. D 91-9 (2015) 093003.
  • Okada H. and Yagyu K., Three-loop Neutrino Mass Model with Doubly Charged Particles from Isodoublets, Phys. Rev. D 93-1 (2016) 013004.
  • Chen C-H. and Nomura T., Bounds on LFV Higgs Decays in a Vector-like Lepton Model and Searching for Doubly Charged Leptons at the LHC, Eur. Phys. J. C 76 (2016) 353.
  • Leonardi R., Alunni L., Romeo F., Fano L., and Panella O., Hunting for Heavy Composite Majorana Neutrinos at the LHC, Eur. Phys. J. C 76 -11 (2016) 593.
  • Zeng Q-G., Ji L., and Yang S., Pair Production of the Doubly Charged Leptons Associated with a Gauge Boson  or Z in e+e- and  Collisions at Future Linear Colliders, Commun. Theor. Phys. 63-3 (2015) 331-339.
  • Biondini S. and Panella O., Exotic Leptons at Future Linear Colliders, Phys. Rev. D 92-1 (2012) 015023.
  • Guo Y-C., Yue C-X., Lui Z-C, The Signatures of Doubly Charged Leptons in Future Linear Colliders, J. Phys. G. Nucl. Part. Phys. 44 (2017) 085004.
  • Zeng Q-G., Production of the Doubly Charged Leptons at the ILC, Eur. Phys. Lett. 111 (2105) 21003.
  • Yu Y., Guo Y-C., Lui Z-C., Fan W-J., Mei Y., and Zhang J., The Signatures of Doubly Charged Leptons at LHeC, J. Phys. G. Nucl. Part. Phys. 45 (2018) 125003.
  • Ozansoy A., Doubly Charged Lepton Search Potential of the FCC-Based Energy Frontier Electron-Proton Colliders, (2019) in preparation .
  • Ginzburg I. F., Physics at Future ep, p (linac-ring) and p Colliders, Turk. J. Phys. 22-7, (1998) 607-610.
  • Shiltsev V. D., An Asymmetric Muon-Proton Collider: Luminosity Consideration, Proceedings of the Part. Accelerator Conf., Vancouver Canada, Conf. Proc. C970512 (1997) 420-421.
  • Sultansoy S., The Post-HERA Era: Brief Review of Future Lepton-Hadron and Photon-Hadron Colliders, (1999) https://arxiv.org/abs/hep-ph/9911417.
  • Belyaev A., Christensen N. D., and Pukhov A., CalcHEP 3.4 for Collider Physics Within and Beyond the Standard Model, Computer Phys. Commun. 184-7 (2013) 1729-1769.
  • Pukhov A., CalcHEP 2.3: MSSM, Structure Functions, Event Generation, Batchs, and Generation of Matrix Elements for other Packages, (2004) https://arxiv.org/abs/hep-ph/0412191.
  • Pukhov A., Boos E., Dubinin M., Edneral V., Ilyin V., Kovalenko D., Kryukov A., Savrin V., Shichanin S., and Semenov A., CompHEP- a Package for Evaluation of Feynman Diagrams and Integration Over Multi-particle Phase Space. User’s Manual for Version 33, (1999) https://arxiv.org/abs/hep-ph/9908288.

INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS

Year 2019, Volume: 61 Issue: 1, 111 - 128, 30.06.2019
https://doi.org/10.33769/aupse.560812

Abstract

We study the doubly charged
leptons considered in extended isospin models at muon-proton colliders. We
respect the lepton flavor conservation and take into consideration the single
production of the doubly charged leptons related to second generation. We give
the effective lagrangian describing the doubly charged lepton gauge
interactions. We calculate the signal and corresponding background cross
sections and analyze the kinematical distributions to obtain the suitable cuts
for the discovery. We choose the W-boson
hadronic decay channel to get the accessible mass limits and couplings of
doubly charged leptons for various muon-proton colliders.

References

  • Terazawa H., Chikashige Y., and Akama K., Unified Model of the Nambu-Jona-Lasino Type for all Elementary Particle Forces, Phys. Rev. D 15-2 (1977) 480-487.
  • Neeman Y., Primitive Particle Model, Phys. Lett. 82B-1 (1979) 69-70.
  • Terazawa H., Yasue M., Akama K., and Hayashi M., Observable Effects of the Possible Sub-structure of Leptons and Quarks, Phys. Lett. 112B 4-5 (1982) 387-392.
  • Renard F. M., Excited Quarks and New Hadronic States, Il Nuovo Cimento A 77-1 (1983) 1-20.
  • Eichten E. J., Lane K. D., and Peskin M. E., New Tests for Quark and Lepton Substructure, Phys. Rev. Lett. 50-11 (1983) 811-814.
  • de Rujula A., Maiani L., and Petronzio R., Search for Excited Quarks, Phys. Lett. 140B 3-4 (1984) 253-258.
  • Cabibbo N., Maiani L., and Srivastava Y. N., Anomalous Z Decays: Excited Leptons?, Phys. Lett. 139B 5-6 (1984) 459-463.
  • Kühn J. and Zerwas P. M., Excited Quarks and Leptons, Phys. Lett. 147B 1-3 (1984) 189-196.
  • Hagiwara K., Komamiya S., and Zeppenfeld D., Excited Lepton Production at LEP and HERA, Z. für Physik C 29-1 (1985) 115-122.
  • Boudjema F., Djouadi A., and Kneur J. L., Excited Fermions at e+e- and eP Colliders, Z. für Physik C 57-3 (1993) 425-449.
  • Cakir O., Yilmaz A., and Sultansoy S., Single Production of Excited Electrons at Future e+e-, ep and pp Colliders, Phys. Rev. D 70-7 (2004) 075011.
  • Cakir O., Turk Cakir I., and Kirca Z., Single Production of Excited Neutrinos at Future e+e-, ep and pp Colliders Phys. Rev. D 70-7 (2004) 075017.
  • Caliskan A., Kara S. O., and Ozansoy A., Excited Muon Searches at the FCC-Based Muon-Hadron Colliders, Adv. High Energy Phys. 2017 (2017) 1540243.
  • Caliskan A., Excited Neutrino Search Potential of the FCC-Based Electron-Hadron Colliders, Adv. High Energy Phys. 2017 (2017) 4726050.
  • Caliskan A. and Kara S. O., Single Production of the Excited Electrons at the Future FCC-Based Lepton-Hadron Colliders, Int. J. Mod. Phys. A 33-24 (2018) 1850141.
  • Ginzburg I. F. and Ivanov D. Yu., Excited Leptons and Quarks at  / e Colliders, Phys. Lett. B276 1-2 (1992) 214-218.
  • Koksal M., Analysis of Excited Neutrinos at the CLIC, Int. J. Mod. Phys. A 29-24 (2014) 1450138.
  • Ozansoy A. and Billur A. A., Search for Excited Electrons Through  Scattering, Phys. Rev. D 86-5 (2012) 055008.
  • Kirca Z., Cakir O., and Aydin Z. Z., Production of Excited Electrons at TESLA and CLIC Based e gamma Colliders, Acta Phys. Polon. B 34-8 (2003) 4079.
  • Eboli O. J., Lietti S. M., and Mathews P., Excited Leptons at the CERN Large Hadron Collider, Phys. Rev. D 65-7 (2002) 075003.
  • Inan S. C., Exclusive Excited Leptons Search in Two Lepton Final States at the CERN LHC, Phys. Rev. D81-11 (2010) 115002.
  • Cakir O., Leroy C., Mehdiyev R., and Belyaev A., Production and Decay of Excited Electrons at the LHC, Eur. Phys. J. C 32-2 (2004) s1-s17.
  • Belyaev A., Leroy C., and Mehdiyev R., Production of Excited Neutrinos at the LHC, Eur. Phys. J. C 41-2 (2005) 1-10.
  • Boos E., Volodgin A., Toback D., and Gaspard J., Prospects of Searching for Excited Leptons During Run II of the Fermilab Tevatron, Phys. Rev. D 66-1 (2002) 013011.
  • Baur U., Spira M., and Zerwas P. M., Excited Quark and Lepton Production at Hadron Colliders, Phys. Rev. D 42-3 (1990) 815-824.
  • Pancheri G. and Srivastava Y. N., Weak Isospin Spectroscopy of Excited Quarks and Leptons, Phys. Lett. 146B (1984) 87-94.
  • Carwardine J. (Editorial Board Chair), The International Linear Collider Technical Design Report – Volume 3. II: Accelerator Baseline Design, (2013) https://arxiv.org/abs/1306.6328.
  • Aicheler M., Burrows P., Draper M., Garvey T., Lebrun P., Peach K., Phinney N., Schmickler H., Schulte D., and Toge N. (editors), A Multi-TeV Linear Collider Based on CLIC Technology: CLIC Conceptual Design Report, CERN-2012-007, KEK Report JAI-2012-001, 2012-1, PSI-12-01, SLAC-R-985, CERN, Geneva, Switzerland, (2012)
  • https://edms.cern.ch/ui/file/1234244/7/CERN-2012-007.pdf.
  • Delahaye J-P., Ankenbrandt C., Bogacz A., Brice S., Bross A., Denisov D., Eichten E., Huber P., Kaplan D. M., Kirk H., Lipton R., Neuffer D., Palmer M. A., Palmer R., Ryne R., and Snopok P. (editors), Enabling Intensity and Energy Frontier Science with a Muon Accelerator Facility in the U.S. : A White Paper Submitted to the 2013 U.S. Community Summer Study of the Division of Particles and Fields of the American Society, FERMILAB-CONF-13-307-APC (2013), https://arxiv/org/abs/1308.0494
  • Palmer R. B., Muon Colliders, Rev. Accel. Science and Technology 7 (2014) 137-159.
  • Zimmermann F., LHC/FCC-Based Muon Colliders, 9th Int. Particle Accel. Conference, IPAC2018, doi:10.18429/JACow-IPAC2018-MOPMF065 (2018) 273-276.
  • Future Circular Collider Study (FCC), https://fcc.web.cern.ch
  • Bicer M. et al. (The TLEP Design Study Working Group), First Look at the Physics Case of TLEP, Journal of High Energy Physics 2014-1 (2014) 164.
  • Acar Y. C., Akay A. N., Beser S., Canbay A. C., Karadeniz H., Kaya U., and Oner B.B., Future Circular Collider Based Lepton-Hadron and Photon-Hadron Colliders: Luminosity and Physics, Nuclear Inst. and Methods in Phys. Research A 871 (2017) 47-53.
  • Su F., Gao J., Xiao M., Wang D., Wang Y-W., Bai S., Bian T-J., Method Study of Parameter Choice for a Circular Proton-Proton Collider Chin. Phys. C 40-1 (2016) 017001.
  • Abelleira Fernandez J. L. et al. (LHeC Study Group), A Large Hadron Electron Collider at CERN, Journal of Phys. G 39 (2012) 075001.
  • Bruening O. and Klein M., The Large Hadron Electron Collider, Mod. Phys. Lett. A 28 - 16 (2013) 1330011.
  • Canbay A. C., Kaya U., Ketenoglu B., Oner B. B., and Sultansoy S., Adv. in High Energy Phys. 2017 (2017) 4021493.
  • Kaya U., Ketenoglu B., and Sultansoy S., The LHC Based p Colliders, (2018) https://arxiv.org/abs/1807.09867.
  • Chua C. K. and Law S. S. C., Phenomenological Constraints on Minimally Coupled Exotic Lepton Triplets, Phys. Rev D 83 (2011) 055010.
  • Foot R., Lew H., He X. G., and Joshi G. C., Seesaw Neutrino Masses Induced by a Triplet of Leptons, Zür. Phys. C 44 (1989) 441-444.
  • Kumericki K., Picek I., and Radovcic B., Exotic Seesaw-Motivated Heavy Leptons at the LHC, Phys. Rev. D 84 (2011) 093002.
  • Demir D. A., Frank M., Huitu K., Kumar Rai S., and Turan I., Signals of Doubly-Charged Higgsinos at the CERN Large Hadron Collider, Phys. Rev. D 78 (2008) 035013.
  • Franceschini M. and Mohapatra R., Radiatively Induced Type II Seesaw Models and Vectorlike 5/3 Charge Quarks, Phys. Rev. D 89-5 (2014) 055013.
  • Dutta B., Mohapatra R. N., and Muller D. J., The Signature at the Tevatron for the Light Doubly Charged Higgsino of the Supersymmetric Left-Right Model, Phys. Rev. D 60 (1999) 095005.
  • Chacko Z. and Mohapatra R. N., Supersymmetric Left-Right Model and Light Doubly Charged Higgs Bosons and Higgsinos, Phys. Rev. D 58 (1998) 015003.
  • Frank M., Doubly Charged Higgsino Mediated Lepton Flavor Violating Decays, Phys. Rev. D 62 (2000) 053004.
  • Cirelli M., Fornengo N., and Strumia A., Minimal Dark Matter, Nucl. Phys. B 753 (2006) 178-194.
  • del Aguila F., de Blas J., and Perez-Victoria M., Effects of New Leptons in Electroweak Precision Data, Phys. Rev. D 78 (2008) 013010.
  • Cvetic M., Halverson J., and Langacker P., Implications of String Constraints for Exotic Matter and Z’ s Beyond the Standart Model, Journal of High Energy Phys. 1111 (2011) 058.
  • Delgado A., Garcia Cely C., Han T., and Wang Z., Phenomenology of Lepton Triplet, Phys. Rev. D 84 (2011) 073007.
  • Biondini S., Panella O., Pancheri G., Srivastava Y. N., and Fano L., Phenomenology of Excited Doubly Charged Heavy Leptons at the LHC, Phys. Rev. D 85 (2012) 095018.
  • Alloul A., Frank M., Fuks B., and de Traubenberg M. R., Doubly-Charged Particles at the Large Hadron Collider, Phys. Rev. D 88 (2013) 075004.
  • Leonardi R., Panella O., and Fano L., Doubly Charged Heavy Leptons at LHC via Contact Interactions, Phys. Rev. D 90-3 (2014) 035001.
  • You Y., Chong-Xing Y., and Yun X., Pair Production of the Doubly Charged Leptons via Electroweak Vector Boson Fusion at the Large Hadron Collider, Chin. Phys. Lett. 31 (2014) 021201.
  • Ma T., Zhang B., and Cacciapaglia G., Triplet with a Doubly-Charged Lepton at the LHC, Phys. Rev. D 89-1 015020 (2014); Doubly Charged Lepton from an Exotic Doublet at the LHC, Phys. Rev. D 89-9 (2014) 093022.
  • Yu Y., Yue C-X., and Yang S., Signatures of the Quintuplet Leptons at the LHC, Phys. Rev. D 91-9 (2015) 093003.
  • Okada H. and Yagyu K., Three-loop Neutrino Mass Model with Doubly Charged Particles from Isodoublets, Phys. Rev. D 93-1 (2016) 013004.
  • Chen C-H. and Nomura T., Bounds on LFV Higgs Decays in a Vector-like Lepton Model and Searching for Doubly Charged Leptons at the LHC, Eur. Phys. J. C 76 (2016) 353.
  • Leonardi R., Alunni L., Romeo F., Fano L., and Panella O., Hunting for Heavy Composite Majorana Neutrinos at the LHC, Eur. Phys. J. C 76 -11 (2016) 593.
  • Zeng Q-G., Ji L., and Yang S., Pair Production of the Doubly Charged Leptons Associated with a Gauge Boson  or Z in e+e- and  Collisions at Future Linear Colliders, Commun. Theor. Phys. 63-3 (2015) 331-339.
  • Biondini S. and Panella O., Exotic Leptons at Future Linear Colliders, Phys. Rev. D 92-1 (2012) 015023.
  • Guo Y-C., Yue C-X., Lui Z-C, The Signatures of Doubly Charged Leptons in Future Linear Colliders, J. Phys. G. Nucl. Part. Phys. 44 (2017) 085004.
  • Zeng Q-G., Production of the Doubly Charged Leptons at the ILC, Eur. Phys. Lett. 111 (2105) 21003.
  • Yu Y., Guo Y-C., Lui Z-C., Fan W-J., Mei Y., and Zhang J., The Signatures of Doubly Charged Leptons at LHeC, J. Phys. G. Nucl. Part. Phys. 45 (2018) 125003.
  • Ozansoy A., Doubly Charged Lepton Search Potential of the FCC-Based Energy Frontier Electron-Proton Colliders, (2019) in preparation .
  • Ginzburg I. F., Physics at Future ep, p (linac-ring) and p Colliders, Turk. J. Phys. 22-7, (1998) 607-610.
  • Shiltsev V. D., An Asymmetric Muon-Proton Collider: Luminosity Consideration, Proceedings of the Part. Accelerator Conf., Vancouver Canada, Conf. Proc. C970512 (1997) 420-421.
  • Sultansoy S., The Post-HERA Era: Brief Review of Future Lepton-Hadron and Photon-Hadron Colliders, (1999) https://arxiv.org/abs/hep-ph/9911417.
  • Belyaev A., Christensen N. D., and Pukhov A., CalcHEP 3.4 for Collider Physics Within and Beyond the Standard Model, Computer Phys. Commun. 184-7 (2013) 1729-1769.
  • Pukhov A., CalcHEP 2.3: MSSM, Structure Functions, Event Generation, Batchs, and Generation of Matrix Elements for other Packages, (2004) https://arxiv.org/abs/hep-ph/0412191.
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There are 73 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Review Articles
Authors

Aysuhan Ozansoy 0000-0002-9042-1372

Publication Date June 30, 2019
Submission Date May 6, 2019
Acceptance Date June 12, 2019
Published in Issue Year 2019 Volume: 61 Issue: 1

Cite

APA Ozansoy, A. (2019). INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS. Communications Faculty of Sciences University of Ankara Series A2-A3 Physical Sciences and Engineering, 61(1), 111-128. https://doi.org/10.33769/aupse.560812
AMA Ozansoy A. INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS. Commun.Fac.Sci.Univ.Ank.Series A2-A3: Phys.Sci. and Eng. June 2019;61(1):111-128. doi:10.33769/aupse.560812
Chicago Ozansoy, Aysuhan. “INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS”. Communications Faculty of Sciences University of Ankara Series A2-A3 Physical Sciences and Engineering 61, no. 1 (June 2019): 111-28. https://doi.org/10.33769/aupse.560812.
EndNote Ozansoy A (June 1, 2019) INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS. Communications Faculty of Sciences University of Ankara Series A2-A3 Physical Sciences and Engineering 61 1 111–128.
IEEE A. Ozansoy, “INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS”, Commun.Fac.Sci.Univ.Ank.Series A2-A3: Phys.Sci. and Eng., vol. 61, no. 1, pp. 111–128, 2019, doi: 10.33769/aupse.560812.
ISNAD Ozansoy, Aysuhan. “INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS”. Communications Faculty of Sciences University of Ankara Series A2-A3 Physical Sciences and Engineering 61/1 (June 2019), 111-128. https://doi.org/10.33769/aupse.560812.
JAMA Ozansoy A. INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS. Commun.Fac.Sci.Univ.Ank.Series A2-A3: Phys.Sci. and Eng. 2019;61:111–128.
MLA Ozansoy, Aysuhan. “INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS”. Communications Faculty of Sciences University of Ankara Series A2-A3 Physical Sciences and Engineering, vol. 61, no. 1, 2019, pp. 111-28, doi:10.33769/aupse.560812.
Vancouver Ozansoy A. INVESTIGATING DOUBLY CHARGED LEPTONS AT FUTURE ENERGY FRONTIER MUON-PROTON COLLIDERS. Commun.Fac.Sci.Univ.Ank.Series A2-A3: Phys.Sci. and Eng. 2019;61(1):111-28.

Communications Faculty of Sciences University of Ankara Series A2-A3 Physical Sciences and Engineering

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