Distinguishability of neutrino flavors through their different shower characteristics

Chih Ching Chen; Pisin Chen; Chia Yu Hu; K. C. Lai

doi:10.1142/9789814449373_0027

Distinguishability of neutrino flavors through their different shower characteristics

Chih Ching Chen, Pisin Chen, Chia Yu Hu, K. C. Lai

Center for General Education

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We propose a new flavor identification method to distinguish mu and tau type ultra high energy cosmic neutrinos (UHECN). Energy loss of leptons in matter is an impor-tant information for the detection of neutrinos originated from high energy astrophysical sources. 50 years ago, Askaryan proposed to detect Cherenkov radiowave signals emit-ted from the negative charge excess of neutrino-induced particle shower. The theory of Cherenkov radiation under Fraunhofer approximation has been widely studied in the past two decades. However, at high energies or for high density materials, electromag-netic shower should be elongated due to the Landau-Pomeranchuck-Migdal (LPM) effect. As such the standard Fraunhofer approximation ceases to be valid when the distance be-tween the shower and the detector becomes comparable with the shower length. Monte Carlo simulations have been performed recently to investigate this regime. Here we adopt the deduced relationship between the radio signal and the cascade development profile to investigate its implication to lepton signatures. Our method provides a straightforward technique to identify the neutrino flavor through the detected Cherenkov signals.

Original language	English
Title of host publication	1st LeCosPA Symposium
Subtitle of host publication	Towards Ultimate Understanding of the Universe, LeCosPA 2012
Editors	Pisin Chen
Publisher	World Scientific
Pages	300-307
Number of pages	8
ISBN (Electronic)	9789814449366
DOIs	https://doi.org/10.1142/9789814449373_0027
State	Published - 2013
Event	1st Leung Center for Cosmology and Particle Astrophysics Symposium, LeCosPA 2012 - Taipei, Taiwan Duration: 06 02 2012 → 09 02 2012

Publication series

Name	1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012

Conference

Conference	1st Leung Center for Cosmology and Particle Astrophysics Symposium, LeCosPA 2012
Country/Territory	Taiwan
City	Taipei
Period	06/02/12 → 09/02/12

Bibliographical note

Publisher Copyright:
© 2013 by World Scientific Publishing Co. Pte. Ltd.

Keywords

Flavor identification
Lepton propagation
Neutrino detection
Neutrino flavor

Access to Document

10.1142/9789814449373_0027

Cite this

Chen, C. C., Chen, P., Hu, C. Y., & Lai, K. C. (2013). Distinguishability of neutrino flavors through their different shower characteristics. In P. Chen (Ed.), 1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012 (pp. 300-307). (1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012). World Scientific. https://doi.org/10.1142/9789814449373_0027

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title = "Distinguishability of neutrino flavors through their different shower characteristics",

abstract = "We propose a new flavor identification method to distinguish mu and tau type ultra high energy cosmic neutrinos (UHECN). Energy loss of leptons in matter is an impor-tant information for the detection of neutrinos originated from high energy astrophysical sources. 50 years ago, Askaryan proposed to detect Cherenkov radiowave signals emit-ted from the negative charge excess of neutrino-induced particle shower. The theory of Cherenkov radiation under Fraunhofer approximation has been widely studied in the past two decades. However, at high energies or for high density materials, electromag-netic shower should be elongated due to the Landau-Pomeranchuck-Migdal (LPM) effect. As such the standard Fraunhofer approximation ceases to be valid when the distance be-tween the shower and the detector becomes comparable with the shower length. Monte Carlo simulations have been performed recently to investigate this regime. Here we adopt the deduced relationship between the radio signal and the cascade development profile to investigate its implication to lepton signatures. Our method provides a straightforward technique to identify the neutrino flavor through the detected Cherenkov signals.",

keywords = "Flavor identification, Lepton propagation, Neutrino detection, Neutrino flavor",

author = "Chen, {Chih Ching} and Pisin Chen and Hu, {Chia Yu} and Lai, {K. C.}",

note = "Publisher Copyright: {\textcopyright} 2013 by World Scientific Publishing Co. Pte. Ltd.; 1st Leung Center for Cosmology and Particle Astrophysics Symposium, LeCosPA 2012 ; Conference date: 06-02-2012 Through 09-02-2012",

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doi = "10.1142/9789814449373_0027",

language = "英语",

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Chen, CC, Chen, P, Hu, CY & Lai, KC 2013, Distinguishability of neutrino flavors through their different shower characteristics. in P Chen (ed.), 1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012. 1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012, World Scientific, pp. 300-307, 1st Leung Center for Cosmology and Particle Astrophysics Symposium, LeCosPA 2012, Taipei, Taiwan, 06/02/12. https://doi.org/10.1142/9789814449373_0027

Distinguishability of neutrino flavors through their different shower characteristics. / Chen, Chih Ching; Chen, Pisin; Hu, Chia Yu et al.
1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012. ed. / Pisin Chen. World Scientific, 2013. p. 300-307 (1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - We propose a new flavor identification method to distinguish mu and tau type ultra high energy cosmic neutrinos (UHECN). Energy loss of leptons in matter is an impor-tant information for the detection of neutrinos originated from high energy astrophysical sources. 50 years ago, Askaryan proposed to detect Cherenkov radiowave signals emit-ted from the negative charge excess of neutrino-induced particle shower. The theory of Cherenkov radiation under Fraunhofer approximation has been widely studied in the past two decades. However, at high energies or for high density materials, electromag-netic shower should be elongated due to the Landau-Pomeranchuck-Migdal (LPM) effect. As such the standard Fraunhofer approximation ceases to be valid when the distance be-tween the shower and the detector becomes comparable with the shower length. Monte Carlo simulations have been performed recently to investigate this regime. Here we adopt the deduced relationship between the radio signal and the cascade development profile to investigate its implication to lepton signatures. Our method provides a straightforward technique to identify the neutrino flavor through the detected Cherenkov signals.

AB - We propose a new flavor identification method to distinguish mu and tau type ultra high energy cosmic neutrinos (UHECN). Energy loss of leptons in matter is an impor-tant information for the detection of neutrinos originated from high energy astrophysical sources. 50 years ago, Askaryan proposed to detect Cherenkov radiowave signals emit-ted from the negative charge excess of neutrino-induced particle shower. The theory of Cherenkov radiation under Fraunhofer approximation has been widely studied in the past two decades. However, at high energies or for high density materials, electromag-netic shower should be elongated due to the Landau-Pomeranchuck-Migdal (LPM) effect. As such the standard Fraunhofer approximation ceases to be valid when the distance be-tween the shower and the detector becomes comparable with the shower length. Monte Carlo simulations have been performed recently to investigate this regime. Here we adopt the deduced relationship between the radio signal and the cascade development profile to investigate its implication to lepton signatures. Our method provides a straightforward technique to identify the neutrino flavor through the detected Cherenkov signals.

KW - Flavor identification

KW - Lepton propagation

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KW - Neutrino flavor

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Chen CC, Chen P, Hu CY, Lai KC. Distinguishability of neutrino flavors through their different shower characteristics. In Chen P, editor, 1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012. World Scientific. 2013. p. 300-307. (1st LeCosPA Symposium: Towards Ultimate Understanding of the Universe, LeCosPA 2012). doi: 10.1142/9789814449373_0027

Distinguishability of neutrino flavors through their different shower characteristics

Abstract

Publication series

Conference

Bibliographical note

Keywords

Access to Document

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