Publications citing Publication SELEX:2001fbx

SELEX Collaboration, Gough Eschrich, Ivo M. and others: Measurement of the Sigma- Charge Radius by Sigma- Electron Elastic Scattering. Phys. Lett. B 522 233–239 (2001). arXiv:hep-ex/0106053.

91 Citations

  1. Ramalho, G. and Peña, M. T.: Electromagnetic transition form factors of baryon resonances. Prog. Part. Nucl. Phys. 136 104097 (2024). arXiv:2306.13900 [hep-ph].

  2. BESIII Collaboration, Ablikim, M. and others: Determination of the $\Sigma+$ Timelike Electromagnetic Form Factors. Phys. Rev. Lett. 132 081904 (2024). arXiv:2307.15894 [hep-ex].

  3. Yan, Bing and Chen, Cheng and Xie, Ju-Jun: $h\Sigma and $\Xi$ electromagnetic form factors in the extended vector meson dominance model. Phys. Rev. D 107 076008 (2023). arXiv:2301.00976 [hep-ph].

  4. Simula, Silvano and Vittorio, Ludovico: Dispersive analysis of the experimental data on the electromagnetic form factor of charged pions at spacelike momenta. Phys. Rev. D 108 094013 (2023). arXiv:2309.02135 [hep-ph].

  5. Schönning, Karin and Batozskaya, Varvara and Adlarson, Patrik and Zhou, Xiaorong: Production and decay of polarized hyperon-antihyperon pairs*. Chin. Phys. C 47 052002 (2023). arXiv:2302.13071 [hep-ph].

  6. Ma, Yao and Meng, Lu and Chen, Yan-Ke and Zhu, Shi-Lin: Ground state baryons in the flux-tube three-body confinement model using diffusion Monte Carlo. Phys. Rev. D 107 054035 (2023). arXiv:2211.09021 [hep-ph].

  7. Boone, Benjamin and Chen, Michael and Sturm, Kevin and Yoo, Justin and Higinbotham, Douglas: Comment on Transverse Charge Density and the Radius of the Proton. (2023) arXiv:2302.07356 [nucl-ex].

  8. Binosi, Daniele: Data-Driven Extraction of Hadron Radii. Few Body Syst. 64 85 (2023).

  9. Bhall, Preeti and Batra, Meenakshi and Upadhyay, Alka: Sea contribution to the charge radii and quadrupole moment of JP \textonehalf+, \textthreesuperior\textfractionsolidus₂+ baryons. PTEP 2023 093B03 (2023). arXiv:2305.01894 [hep-ph].

  10. Wang, Yimin: New techniques in low-Q\texttwosuperior elastic electron-proton scattering measurements and the proton radius extraction. PhD Thesis, MIT. (2022)

  11. Thorén, Viktor: Hadron Physics in a Polarized World : Exploring Electromagnetic Interactions with Spin Observables. PhD Thesis, Uppsala U., Biomed. Ctr.. (2022)

  12. Particle Data Group Collaboration, Workman, R. L. and others: Review of Particle Physics. PTEP 2022 083C01 (2022).

  13. Cui, Zhu-Fang and Binosi, Daniele and Roberts, Craig D. and Schmidt, Sebastian M.: Hadron and light nucleus radii from electron scattering*. Chin. Phys. C 46 122001 (2022). arXiv:2204.05418 [hep-ph].

  14. ETM Collaboration, Alexandrou, Constantia and Bacchio, Simone and Cloet, Ian and Constantinou, Martha and Delmar, Joseph and Hadjiyiannakou, Kyriakos and Koutsou, Giannis and Lauer, Colin and Vaquero, Alejandro: Scalar, vector, and tensor form factors for the pion and kaon from lattice QCD. Phys. Rev. D 105 054502 (2022). arXiv:2111.08135 [hep-lat].

  15. chiQCD Collaboration, Wang, Gen and Liang, Jian and Draper, Terrence and Liu, Keh-Fei and Yang, Yi-Bo: Lattice Calculation of Pion Form Factor with Overlap Fermions. Phys. Rev. D 104 074502 (2021). arXiv:2006.05431 [hep-ph].

  16. Mihovilovič, M. and others: The proton charge radius extracted from the initial-state radiation experiment at MAMI. Eur. Phys. J. A 57 107 (2021). arXiv:1905.11182 [nucl-ex].

  17. Gao, Xiang and Karthik, Nikhil and Mukherjee, Swagato and Petreczky, Peter and Syritsyn, Sergey and Zhao, Yong: Pion form factor and charge radius from lattice QCD at the physical point. Phys. Rev. D 104 114515 (2021). arXiv:2102.06047 [hep-lat].

  18. Cui, Zhu-Fang and Binosi, Daniele and Roberts, Craig D. and Schmidt, Sebastian M.: Pion charge radius from pion+electron elastic scattering data. Phys. Lett. B 822 136631 (2021). arXiv:2108.04948 [hep-ph].

  19. Xiong, Weizhi: A High Precision Measurement of the Proton Charge Radius at JLab. PhD Thesis, Duke U.. (2020)

  20. Wang, Gen: The Pion Form Factor and Momentum and Angular Momentum Fractions of the Proton in Lattice QCD. PhD Thesis, Kentucky U.. (2020).

  21. Particle Data Group Collaboration, Zyla, P. A. and others: Review of Particle Physics. PTEP 2020 083C01 (2020).

  22. Karr, Jean-Philippe and Marchand, Dominique and Voutier, Eric: The proton size. Nature Rev. Phys. 2 601–614 (2020).

  23. Giuliani, Pablo Gustavo: Outsmarting Uncertainty: Statistics Strategies for Nuclear Physics. PhD Thesis, Florida State U.. (2020)

  24. Feng, Xu and Fu, Yang and Jin, Lu-Chang: Lattice QCD calculation of the pion charge radius using a model-independent method. Phys. Rev. D 101 051502 (2020). arXiv:1911.04064 [hep-lat].

  25. Chernichenko, Yu. D.: Form Factor for a Two-Fermion Composite System: Case of Equal Masses and Vector Current. Phys. Atom. Nucl. 82 334–342 (2019).

  26. Particle Data Group Collaboration, Tanabashi, M. and others: Review of Particle Physics. Phys. Rev. D 98 030001 (2018).

  27. Higinbotham, Douglas W. and Giuliani, Pablo and McClellan, Randall E. and Sirca, Simon and Yan, Xuefei: Bias-Variance Trade-off and Model Selection for Proton Radius Extractions. (2018) arXiv:1812.05706 [physics.data-an].

  28. Buchmann, Alfons J.: Electromagnetic Multipole Moments of Baryons. Few Body Syst. 59 145 (2018). arXiv:1902.10166 [hep-ph].

  29. Hagelstein, Franziska Elfriede Hildegard: Exciting nucleon in Compton scattering and hydrogen-like atoms. PhD Thesis, Mainz U.. (2017)

  30. Hagelstein, Franziska: Exciting Nucleons in Compton Scattering and Hydrogen-Like Atoms. PhD Thesis, Mainz U.. (2017). arXiv:1710.00874 [nucl-th].

  31. Sanchis-Alepuz, Helios and Fischer, Christian S.: Hyperon elastic electromagnetic form factors in the space-like momentum region. Eur. Phys. J. A 52 34 (2016). arXiv:1512.00833 [hep-ph].

  32. Particle Data Group Collaboration, Patrignani, C. and others: Review of Particle Physics. Chin. Phys. C 40 100001 (2016).

  33. Krutov, A. F. and Polezhaev, R. G. and Troitsky, V. E.: The radius of the rho meson determined from its decay constant. Phys. Rev. D 93 036007 (2016). arXiv:1602.00907 [hep-ph].

  34. Kaur, A. and Gupta, P. and Upadhyay, A.: Charge radii of nucleons in statistical model. DAE Symp. Nucl. Phys. 61 718–719 (2016)

  35. Eichmann, Gernot and Sanchis-Alepuz, Helios and Williams, Richard and Alkofer, Reinhard and Fischer, Christian S.: Baryons as relativistic three-quark bound states. Prog. Part. Nucl. Phys. 91 1–100 (2016). arXiv:1606.09602 [hep-ph].

  36. Zahra, Sarwat and Rashid, Haris and Fazal-e-Aleem and Hussain, Talib and Zafar, Abrar Ahmad and Tahir, Sohail Afzal: Geometrical Models and Hadronic Radii. (2015) arXiv:1510.09146 [hep-ph].

  37. Lacki, Brian C.: SETI at Planck Energy: When Particle Physicists Become Cosmic Engineers. (2015) arXiv:1503.01509 [astro-ph.HE].

  38. Particle Data Group Collaboration, Olive, K. A. and others: Review of Particle Physics. Chin. Phys. C 38 090001 (2014).

  39. Sharma, Neetika and Dahiya, Harleen: Charge radii of octet and decuplet baryons in chiral constituent quark model. Pramana 81 449–465 (2013).

  40. Sharma, Neetika and Dahiya, Harleen: Charge Radii and Quadrupole Moments of the Low-Lying Baryons in the Chiral Constituent Quark Model. Adv. High Energy Phys. 2013 756847 (2013).

  41. Ramalho, G. and Tsushima, K. and Thomas, A. W.: Octet Baryon Electromagnetic form Factors in Nuclear Medium. J. Phys. G 40 015102 (2013). arXiv:1206.2207 [hep-ph].

  42. Bartos, E. and Dubnicka, S. and Dubnickova, A. -Z.: The advanced nucleon electromagnetic structure model and prediction of hyperon electromagnetic form factors. Nucl. Phys. B Proc. Suppl. 245 78–81 (2013).

  43. Particle Data Group Collaboration, Beringer, J. and others: Review of Particle Physics (RPP). Phys. Rev. D 86 010001 (2012).

  44. Hill, Richard J.: Status of the proton radius puzzle. In: Proceedings of 47th Rencontres de Moriond on QCD and High Energy Interactions . 301–304 (2012)

  45. Dong, Yu-Bing and Wang, Yi-Zhan: A study of pion structures in an effective Lagrangian approach. J. Phys. G 39 025003 (2012).

  46. Bernauer, J. C.: Precise form factors from elastic electron scattering. J. Phys. Conf. Ser. 381 012006 (2012).

  47. Sharma, Neetika and Dahiya, Harleen: Charge Radii of Octet and Decuplet Baryons. AIP Conf. Proc. 1388 458–460 (2011). arXiv:1107.3931 [hep-ph].

  48. Ramalho, G. and Tsushima, K.: Octet baryon electromagnetic form factors in a relativistic quark model. Phys. Rev. D 84 054014 (2011). arXiv:1107.1791 [hep-ph].

  49. Dahiya, Harleen and Sharma, Neetika: Electromagnetic form factors of the nucleon in the chiral constituent quark model. (2011) arXiv:1108.0250 [hep-ph].

  50. Particle Data Group Collaboration, Nakamura, K. and others: Review of particle physics. J. Phys. G 37 075021 (2010).

  51. Dong, Yubing: Transverse charge density of the pion in a realistic effective Lagrangian approach. Phys. Rev. C 81 018201 (2010).

  52. Dahiya, Harleen and Sharma, Neetika: Chiral symmetry breaking and electromagnetic structure of the nucleon. AIP Conf. Proc. 1322 445–451 (2010). arXiv:1010.0085 [hep-ph].

  53. Borisyuk, Dmitry: Proton charge and magnetic rms radii from the elastic $ep$ scattering data. Nucl. Phys. A 843 59–67 (2010). arXiv:0911.4091 [hep-ph].

  54. Bernauer, Jan C.: Measurement of the elastic electron-proton cross section and separation of the electric and magnetic form factor in the Q$^{2}$ range from 0.004 to 1 (GeV/c)$^{2}$. PhD Thesis, Mainz U., Inst. Kernphys.. (2010)

  55. Wang, P. and Leinweber, D. B. and Thomas, A. W. and Young, R. D.: Chiral extrapolation of octet-baryon charge radii. Phys. Rev. D 79 094001 (2009). arXiv:0810.1021 [hep-ph].

  56. Blanco-Covarrubias, E. Alejandro: Measurement of the cross section of charmed hadrons and the nuclear dependence alpha (in Spanish). PhD Thesis, San Luis Potosi U.. (2009).

  57. Particle Data Group Collaboration, Amsler, Claude and others: Review of Particle Physics. Phys. Lett. B 667 1–1340 (2008).

  58. Koschmieder, E. L.: Theory of the Elementary Particles. (2008) arXiv:0804.4848 [physics.gen-ph].

  59. Drechsel, Dieter and Walcher, Thomas: Hadron structure at low Q**2. Rev. Mod. Phys. 80 731–785 (2008). arXiv:0711.3396 [hep-ph].

  60. Bernard, Veronique: Chiral Perturbation Theory and Baryon Properties. Prog. Part. Nucl. Phys. 60 82–160 (2008). arXiv:0706.0312 [hep-ph].

  61. Faessler, A. and Gutsche, T. and Lyubovitskij, V. E. and Pumsa-Ard, K.: Chiral dynamics of baryons in the quark model. AIP Conf. Proc. 884 43–51 (2007).

  62. Buchmann, A. J.: Structure of strange baryons. In: Proceedings of 9th International Conference on Hypernuclear and Strange Particle Physics . 329–333 (2007). arXiv:0712.4383 [hep-ph].

  63. Pumsa-ard, Kem: Chiral dynamics of baryons in the perturbative chiral quark model. (2006).

  64. Particle Data Group Collaboration, Yao, W. M. and others: Review of Particle Physics. J. Phys. G 33 1–1232 (2006).

  65. Leinweber, Derek Bruce and Boinepalli, S. and Thomas, Anthony William and Wang, P. and Williams, Anthony Gordon and Young, Ross Daniel and Zanotti, James M. and Zhang, J. B.: Strange electric form-factor of the proton. Phys. Rev. Lett. 97 022001 (2006). arXiv:hep-lat/0601025.

  66. Koschmieder, E. L.: The Rest masses of the electron and muon and of the stable mesons and baryons. (2006) arXiv:physics/0602037.

  67. Haupt, Christian: Electromagnetic Properties of Baryons. PhD Thesis, Ph.D.\ Thesis, Universität Bonn, . (2006)

  68. Thomas, Anthony William and Young, Ross Daniel and Leinweber, Derek Bruce: Hadron structure on the back of an envelope. In: Proceedings of 1st Workshop on Quark-Hadron Duality and the Transition to pQCD . 41–49 (2005). arXiv:nucl-th/0509082.

  69. Singh, Balraj: Nuclear Data Sheets for A = 1. Nucl. Data Sheets 106 601–618 (2005).

  70. Silva, A. and Urbano, D. and Goeke, K.: Baryon form factors in the chiral quark-soliton model. Nucl. Phys. A 755 290–293 (2005).

  71. Ossig, Gerald: Electroweak Nucleon Structure from the Extended Goldstone-Boson-Exchange COnstituent Quark Model. PhD Thesis, Diploma Thesis, Universität Graz, . (2005)

  72. Faessler, A. and Gutsche, T. and Lyubovitskij, V. E.: Structure of baryons in the perturbative chiral quark model. Prog. Part. Nucl. Phys. 55 1–11 (2005).

  73. Van Cauteren, T. and Corthals, T. and Janssen, S. and Ryckebusch, J. and Merten, D. and Metsch, B. and Petry, H. R.: Electromagnetic transitions of hyperons in a relativistic quark model. 367–370 (2004). arXiv:nucl-th/0407017.

  74. Van Cauteren, Tim and Merten, Dirk and Corthals, Tamara and Janssen, Stijn and Metsch, Bernard and Petry, Herbert R. and Ryckebusch, Jan: Electric and magnetic form-factors of strange baryons. Eur. Phys. J. A 20 283–291 (2004). arXiv:nucl-th/0310058.

  75. Silva, António: Form Factors of the Baryon Octet in the Chiral Quark-Soliton Model. PhD Thesis, Ruhr U., Bochum (main). (2004)

  76. SELEX Collaboration, Pogodin, P. and others: Polarization of Sigma+ hyperons produced by 800 GeV/c protons on Cu and Be. Phys. Rev. D 70 112005 (2004).

  77. Particle Data Group Collaboration, Eidelman, S. and others: Review of particle physics. Particle Data Group. Phys. Lett. B 592 1 (2004).

  78. Meissner, Ulf-G.: Chiral dynamics with strange quarks. AIP Conf. Proc. 717 656–664 (2004). arXiv:hep-ph/0309248.

  79. Koschmieder, E. L.: The Mass and spin of the mesons, baryons and leptons. In: Proceedings of 6th International Symposium on Frontiers of Fundamental Physics . 231–237 (2004) arXiv:physics/0408070.

  80. Julia-Diaz, B. and Riska, D. O.: Baryon magnetic moments in relativistic quark models. Nucl. Phys. A 739 69–88 (2004). arXiv:hep-ph/0401096.

  81. Cheedket, S. and Lyubovitskij, Valery E. and Gutsche, T. and Faessler, Amand and Pumsa-ard, K. and Yan, Y.: Electromagnetic form-factors of the baryon octet in the perturbative chiral quark model. Eur. Phys. J. A 20 317–327 (2004). arXiv:hep-ph/0212347.

  82. Morelos Pineda, Antonio: Charm and strange: E761, E781, and E921. AIP Conf. Proc. 670 395–398 (2003).

  83. Faessler, Amand and Gutsche, T. and Ivanov, M. A. and Lyubovitskij, Valery E. and Wang, P.: Pion and sigma meson properties in a relativistic quark model. Phys. Rev. D 68 014011 (2003). arXiv:hep-ph/0304031.

  84. Engelfried, J. and Filimonov, I. S. and Kilmer, J. and Kozhevnikov, A. P. and Kubarovsky, V. P. and Molchanov, V. V. and Nemitkin, A. V. and Ramberg, E. and Rud, V. I. and Stutte, L.: SELEX RICH Performance and Physics Results. Nucl. Instrum. Meth. A 502 285–288 (2003). arXiv:hep-ex/0208046.

  86. Buchmann, Alfons J. and Lebed, Richard F.: Baryon charge radii and quadrupole moments in the 1/N(c) expansion: The three flavor case. Phys. Rev. D 67 016002 (2003). arXiv:hep-ph/0207358.

  87. Alexander, Gideon: Bose-Einstein and Fermi-Dirac interferometry in particle physics. Rept. Prog. Phys. 66 481–522 (2003). arXiv:hep-ph/0302130.

  88. Unkmeir, C. and Ocherashvili, A. and Fuchs, T. and Moinester, M. A. and Scherer, S.: Pion generalized dipole polarizabilities by virtual Compton scattering pi e —$>$ pi e gamma. Phys. Rev. C 65 015206 (2002). arXiv:hep-ph/0107020.

  89. SELEX Collaboration, Ocherashvili, A. and others: First Measurement of $\pi^- e \to \pi^- e\gamma$ Pion Virtual Compton Scattering. Phys. Rev. C 66 034613 (2002). arXiv:hep-ex/0109003.

  90. Medellin Zapata, Juan: Investigation of the decay $\Lambda_c^+ \to p K^- \pi^+$. masters Thesis, . (2002).

  91. Meissner, Ulf-G.: Baryon form-factors: Model independent results. Nucl. Phys. A 666 51–60 (2000). arXiv:hep-ph/9907323.

Back