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Effect of outgoing nucleon wave function on reconstructed neutrino energy

Alexis Nikolakopoulos (UGent) , M. Martini, Nils Van Dessel (UGent) , Kajetan Niewczas (UGent) , R. González-Jiménez and Natalie Jachowicz (UGent)
(2019) Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics. In Springer Proceedings in Physics p.157-158
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Abstract
The main goal of accelerator-based neutrino experiments is the determination of the neutrino oscillation parameters, The oscillation probability depends on the ratio of the distance traveled by the neutrino to its energy, therefore the determination of the distribution of neutrino energies in a detector is crucial. The reconstructed neutrino energy is a kinematic variable which is determined by the energy and scattering angle of the final state lepton in charged current (CC) scattering off an atomic nucleus. The distribution of reconstructed energies around the true incoming energy depends on the nuclear model used to describe the ν-nucleus cross section. We show the effect of distortion of the outgoing nucleon wave function on these distributions.

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MLA
Nikolakopoulos, Alexis, et al. “Effect of Outgoing Nucleon Wave Function on Reconstructed Neutrino Energy.” Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics, edited by José-Enrique García-Ramos et al., Springer, 2019, pp. 157–58, doi:10.1007/978-3-030-22204-8_15.
APA
Nikolakopoulos, A., Martini, M., Van Dessel, N., Niewczas, K., González-Jiménez, R., & Jachowicz, N. (2019). Effect of outgoing nucleon wave function on reconstructed neutrino energy. In J.-E. García-Ramos, M. V. Andrés, J. A. Lay Valera, A. M. Moro, & F. Pérez-Bernal (Eds.), Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics (pp. 157–158). https://doi.org/10.1007/978-3-030-22204-8_15
Chicago author-date
Nikolakopoulos, Alexis, M. Martini, Nils Van Dessel, Kajetan Niewczas, R. González-Jiménez, and Natalie Jachowicz. 2019. “Effect of Outgoing Nucleon Wave Function on Reconstructed Neutrino Energy.” In Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics, edited by José-Enrique García-Ramos, María V. Andrés, José A. Lay Valera, Antonio M. Moro, and Francisco Pérez-Bernal, 157–58. Cham, Switzerland: Springer. https://doi.org/10.1007/978-3-030-22204-8_15.
Chicago author-date (all authors)
Nikolakopoulos, Alexis, M. Martini, Nils Van Dessel, Kajetan Niewczas, R. González-Jiménez, and Natalie Jachowicz. 2019. “Effect of Outgoing Nucleon Wave Function on Reconstructed Neutrino Energy.” In Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics, ed by. José-Enrique García-Ramos, María V. Andrés, José A. Lay Valera, Antonio M. Moro, and Francisco Pérez-Bernal, 157–158. Cham, Switzerland: Springer. doi:10.1007/978-3-030-22204-8_15.
Vancouver
1.
Nikolakopoulos A, Martini M, Van Dessel N, Niewczas K, González-Jiménez R, Jachowicz N. Effect of outgoing nucleon wave function on reconstructed neutrino energy. In: García-Ramos J-E, Andrés MV, Lay Valera JA, Moro AM, Pérez-Bernal F, editors. Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics. Cham, Switzerland: Springer; 2019. p. 157–8.
IEEE
[1]
A. Nikolakopoulos, M. Martini, N. Van Dessel, K. Niewczas, R. González-Jiménez, and N. Jachowicz, “Effect of outgoing nucleon wave function on reconstructed neutrino energy,” in Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics, La Rábida, 2019, pp. 157–158.
@inproceedings{8636596,
  abstract     = {{The main goal of accelerator-based neutrino experiments is the determination of the neutrino oscillation parameters, The oscillation probability depends on the ratio of the distance traveled by the neutrino to its energy, therefore the determination of the distribution of neutrino energies in a detector is crucial. The reconstructed neutrino energy is a kinematic variable which is determined by the energy and scattering angle of the final state lepton in charged current (CC) scattering off an atomic nucleus. The distribution of reconstructed energies around the true incoming energy depends on the nuclear model used to describe the ν-nucleus cross section. We show the effect of distortion of the outgoing nucleon wave function on these distributions.}},
  author       = {{Nikolakopoulos, Alexis and Martini, M. and Van Dessel, Nils and Niewczas, Kajetan and González-Jiménez, R. and Jachowicz, Natalie}},
  booktitle    = {{Basic Concepts in Nuclear Physics: Theory, Experiments and Applications : 2018 La Rábida International Scientific Meeting on Nuclear Physics}},
  editor       = {{García-Ramos, José-Enrique and Andrés, María V. and Lay Valera, José A. and Moro, Antonio M. and Pérez-Bernal, Francisco}},
  isbn         = {{9783030222031}},
  issn         = {{0930-8989}},
  language     = {{eng}},
  location     = {{La Rábida}},
  pages        = {{157--158}},
  publisher    = {{Springer}},
  title        = {{Effect of outgoing nucleon wave function on reconstructed neutrino energy}},
  url          = {{http://dx.doi.org/10.1007/978-3-030-22204-8_15}},
  year         = {{2019}},
}
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