Calibration of the logarithmic-periodic dipole antenna (LPDA) radio stations at the Pierre Auger Observatory using an octocopter

The Pierre Auger Collaboration

doi:10.1088/1748-0221/12/10/T10005

Calibration of the logarithmic-periodic dipole antenna (LPDA) radio stations at the Pierre Auger Observatory using an octocopter

The Pierre Auger Collaboration

Unidad Profesional Interdisciplinaria de Ingeniería y Tecnologías Avanzadas (UPIITA)

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

An in-situ calibration of a logarithmic periodic dipole antenna with a frequency coverage of 30MHz to 80MHz is performed. Such antennas are part of a radio station system used for detection of cosmic ray induced air showers at the Engineering Radio Array of the Pierre Auger Observatory, the so-called Auger Engineering Radio Array (AERA). The directional and frequency characteristics of the broadband antenna are investigated using a remotely piloted aircraft carrying a small transmitting antenna. The antenna sensitivity is described by the vector effective length relating the measured voltage with the electric-field components perpendicular to the incoming signal direction. The horizontal and meridional components are determined with an overall uncertainty of 7.4^+0.9 _-0.3% and 10.3^+2.8 _-1.7% respectively. The measurement is used to correct a simulated response of the frequency and directional response of the antenna. In addition, the influence of the ground conductivity and permittivity on the antenna response is simulated. Both have a negligible influence given the ground conditions measured at the detector site. The overall uncertainties of the vector effective length components result in an uncertainty of 8.8^+2.1 _-1.3% in the square root of the energy fluence for incoming signal directions with zenith angles smaller than 60°.

Translated title of the contribution	Calibración de las estaciones de radio de la antena dipolo logarítmica periódica (LPDA) en el Observatorio Pierre Auger utilizando un octocóptero.
Original language	English
Article number	T10005
Journal	Journal of Instrumentation
Volume	12
Issue number	10
DOIs	https://doi.org/10.1088/1748-0221/12/10/T10005
State	Published - Oct 2017

Keywords

Antennas
Detector alignment and calibration methods (lasers, sources, particlebeams)
Large detector systems for particle and astroparticle physics
Particle detectors

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10.1088/1748-0221/12/10/T10005

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@article{c6f292888b094815875d977044006b1a,

title = "Calibration of the logarithmic-periodic dipole antenna (LPDA) radio stations at the Pierre Auger Observatory using an octocopter",

abstract = "An in-situ calibration of a logarithmic periodic dipole antenna with a frequency coverage of 30MHz to 80MHz is performed. Such antennas are part of a radio station system used for detection of cosmic ray induced air showers at the Engineering Radio Array of the Pierre Auger Observatory, the so-called Auger Engineering Radio Array (AERA). The directional and frequency characteristics of the broadband antenna are investigated using a remotely piloted aircraft carrying a small transmitting antenna. The antenna sensitivity is described by the vector effective length relating the measured voltage with the electric-field components perpendicular to the incoming signal direction. The horizontal and meridional components are determined with an overall uncertainty of 7.4+0.9 -0.3% and 10.3+2.8 -1.7% respectively. The measurement is used to correct a simulated response of the frequency and directional response of the antenna. In addition, the influence of the ground conductivity and permittivity on the antenna response is simulated. Both have a negligible influence given the ground conditions measured at the detector site. The overall uncertainties of the vector effective length components result in an uncertainty of 8.8+2.1 -1.3% in the square root of the energy fluence for incoming signal directions with zenith angles smaller than 60°.",

keywords = "Antennas, Detector alignment and calibration methods (lasers, sources, particlebeams), Large detector systems for particle and astroparticle physics, Particle detectors",

author = "{The Pierre Auger Collaboration} and A. Aab and P. Abreu and M. Aglietta and {Al Samarai}, I. and Albuquerque, {I. F.M.} and I. Allekotte and A. Almela and Castillo, {J. Alvarez} and J. Alvarez-Mu{\~n}iz and Anastasi, {G. A.} and L. Anchordoqui and B. Andrada and S. Andringa and C. Aramo and F. Arqueros and N. Arsene and H. Asorey and P. Assis and J. Aublin and G. Avila and Badescu, {A. M.} and A. Balaceanu and F. Barbato and Luz, {R. J.Barreira} and Beatty, {J. J.} and Becker, {K. H.} and Bellido, {J. A.} and C. Berat and Bertaina, {M. E.} and X. Bertou and Biermann, {P. L.} and P. Billoir and J. Biteau and Blaess, {S. G.} and A. Blanco and J. Blazek and C. Bleve and M. Boh{\'a}cov{\'a} and D. Boncioli and C. Bonifazi and N. Borodai and Botti, {A. M.} and J. Brack and I. Brancus and T. Bretz and A. Bridgeman and Briechle, {F. L.} and P. Buchholz and A. Bueno and R. Pelayo",

note = "Publisher Copyright: {\textcopyright} 2017 IOP Publishing Ltd and Sissa Medialab.",

year = "2017",

month = oct,

doi = "10.1088/1748-0221/12/10/T10005",

language = "Ingl{\'e}s",

volume = "12",

journal = "Journal of Instrumentation",

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TY - JOUR

T1 - Calibration of the logarithmic-periodic dipole antenna (LPDA) radio stations at the Pierre Auger Observatory using an octocopter

AU - The Pierre Auger Collaboration

AU - Aab, A.

AU - Abreu, P.

AU - Aglietta, M.

AU - Al Samarai, I.

AU - Albuquerque, I. F.M.

AU - Allekotte, I.

AU - Almela, A.

AU - Castillo, J. Alvarez

AU - Alvarez-Muñiz, J.

AU - Anastasi, G. A.

AU - Anchordoqui, L.

AU - Andrada, B.

AU - Andringa, S.

AU - Aramo, C.

AU - Arqueros, F.

AU - Arsene, N.

AU - Asorey, H.

AU - Assis, P.

AU - Aublin, J.

AU - Avila, G.

AU - Badescu, A. M.

AU - Balaceanu, A.

AU - Barbato, F.

AU - Luz, R. J.Barreira

AU - Beatty, J. J.

AU - Becker, K. H.

AU - Bellido, J. A.

AU - Berat, C.

AU - Bertaina, M. E.

AU - Bertou, X.

AU - Biermann, P. L.

AU - Billoir, P.

AU - Biteau, J.

AU - Blaess, S. G.

AU - Blanco, A.

AU - Blazek, J.

AU - Bleve, C.

AU - Bohácová, M.

AU - Boncioli, D.

AU - Bonifazi, C.

AU - Borodai, N.

AU - Botti, A. M.

AU - Brack, J.

AU - Brancus, I.

AU - Bretz, T.

AU - Bridgeman, A.

AU - Briechle, F. L.

AU - Buchholz, P.

AU - Bueno, A.

AU - Pelayo, R.

PY - 2017/10

Y1 - 2017/10

N2 - An in-situ calibration of a logarithmic periodic dipole antenna with a frequency coverage of 30MHz to 80MHz is performed. Such antennas are part of a radio station system used for detection of cosmic ray induced air showers at the Engineering Radio Array of the Pierre Auger Observatory, the so-called Auger Engineering Radio Array (AERA). The directional and frequency characteristics of the broadband antenna are investigated using a remotely piloted aircraft carrying a small transmitting antenna. The antenna sensitivity is described by the vector effective length relating the measured voltage with the electric-field components perpendicular to the incoming signal direction. The horizontal and meridional components are determined with an overall uncertainty of 7.4+0.9 -0.3% and 10.3+2.8 -1.7% respectively. The measurement is used to correct a simulated response of the frequency and directional response of the antenna. In addition, the influence of the ground conductivity and permittivity on the antenna response is simulated. Both have a negligible influence given the ground conditions measured at the detector site. The overall uncertainties of the vector effective length components result in an uncertainty of 8.8+2.1 -1.3% in the square root of the energy fluence for incoming signal directions with zenith angles smaller than 60°.

AB - An in-situ calibration of a logarithmic periodic dipole antenna with a frequency coverage of 30MHz to 80MHz is performed. Such antennas are part of a radio station system used for detection of cosmic ray induced air showers at the Engineering Radio Array of the Pierre Auger Observatory, the so-called Auger Engineering Radio Array (AERA). The directional and frequency characteristics of the broadband antenna are investigated using a remotely piloted aircraft carrying a small transmitting antenna. The antenna sensitivity is described by the vector effective length relating the measured voltage with the electric-field components perpendicular to the incoming signal direction. The horizontal and meridional components are determined with an overall uncertainty of 7.4+0.9 -0.3% and 10.3+2.8 -1.7% respectively. The measurement is used to correct a simulated response of the frequency and directional response of the antenna. In addition, the influence of the ground conductivity and permittivity on the antenna response is simulated. Both have a negligible influence given the ground conditions measured at the detector site. The overall uncertainties of the vector effective length components result in an uncertainty of 8.8+2.1 -1.3% in the square root of the energy fluence for incoming signal directions with zenith angles smaller than 60°.

KW - Antennas

KW - Detector alignment and calibration methods (lasers, sources, particlebeams)

KW - Large detector systems for particle and astroparticle physics

KW - Particle detectors

UR - http://www.scopus.com/inward/record.url?scp=85051401630&partnerID=8YFLogxK

U2 - 10.1088/1748-0221/12/10/T10005

DO - 10.1088/1748-0221/12/10/T10005

M3 - Artículo

SN - 1748-0221

VL - 12

JO - Journal of Instrumentation

JF - Journal of Instrumentation

IS - 10

M1 - T10005

ER -

Calibration of the logarithmic-periodic dipole antenna (LPDA) radio stations at the Pierre Auger Observatory using an octocopter

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Keywords

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