Method to observe Jupiter’s radio emissions at high resolution using multiple LOFAR stations: a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations

Corentin K. Louis; C. M. Jackman; J. M. Grießmeier; O. Wucknitz; D. J. McKenna; P. C. Murphy; P. T. Gallagher; E. P. Carley; D. Fionnagáin; A. Golden; J. McCauley; P. Callanan; M. Redman; C. Vocks

doi:10.1093/rasti/rzac005

Method to observe Jupiter’s radio emissions at high resolution using multiple LOFAR stations: a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations

Corentin K. Louis
, C. M. Jackman
, J. M. Grießmeier
, O. Wucknitz
, D. J. McKenna
, P. C. Murphy
, P. T. Gallagher
, E. P. Carley
, D. Fionnagáin
, A. Golden
, J. McCauley
, P. Callanan
, M. Redman
, C. Vocks

Physics

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

1 Citation (Scopus)

Abstract

The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations in the Netherlands and 14 international stations spread over Europe. Here, we present an observation method to study the Jovian decametric radio emissions from several LOFAR stations (here Birr Castle in Ireland, Nançay in France, and Postdam in Germany), at high temporal and spectral resolution. This method is based on prediction tools, such as radio emission simulations and probability maps, and data processing. We report an observation of Io-induced decametric emission from 2021 June, and a first case study of the substructures that compose the macroscopic emissions (called millisecond bursts). The study of these bursts makes it possible to determine the electron populations at the origin of these emissions. We then present several possible future avenues for study based on these observations. The methodology and study perspectives described in this paper can be applied to new observations of Jovian radio emissions induced by Io, but also by Ganymede or Europa, or Jovian auroral radio emissions.

Original language	English
Pages (from-to)	48-57
Number of pages	10
Journal	RAS Techniques and Instruments
Volume	1
Issue number	1
DOIs	https://doi.org/10.1093/rasti/rzac005
Publication status	Published - 1 Apr 2022

Keywords

instrumentation: interferometers
methods: observational
planets
planets and satellites: aurorae
planets and satellites: individual: Io
satellites: individual: Jupiter

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Louis, C. K., Jackman, C. M., Grießmeier, J. M., Wucknitz, O., McKenna, D. J., Murphy, P. C., Gallagher, P. T., Carley, E. P., Fionnagáin, D., Golden, A., McCauley, J., Callanan, P., Redman, M., & Vocks, C. (2022). Method to observe Jupiter’s radio emissions at high resolution using multiple LOFAR stations: a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations. RAS Techniques and Instruments, 1(1), 48-57. https://doi.org/10.1093/rasti/rzac005

@article{0a29cd76595845e68ba770f83eece776,

title = "Method to observe Jupiter{\textquoteright}s radio emissions at high resolution using multiple LOFAR stations: a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations",

abstract = "The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations in the Netherlands and 14 international stations spread over Europe. Here, we present an observation method to study the Jovian decametric radio emissions from several LOFAR stations (here Birr Castle in Ireland, Nan{\c c}ay in France, and Postdam in Germany), at high temporal and spectral resolution. This method is based on prediction tools, such as radio emission simulations and probability maps, and data processing. We report an observation of Io-induced decametric emission from 2021 June, and a first case study of the substructures that compose the macroscopic emissions (called millisecond bursts). The study of these bursts makes it possible to determine the electron populations at the origin of these emissions. We then present several possible future avenues for study based on these observations. The methodology and study perspectives described in this paper can be applied to new observations of Jovian radio emissions induced by Io, but also by Ganymede or Europa, or Jovian auroral radio emissions.",

keywords = "instrumentation: interferometers, methods: observational, planets, planets and satellites: aurorae, planets and satellites: individual: Io, satellites: individual: Jupiter",

author = "Louis, \{Corentin K.\} and Jackman, \{C. M.\} and Grie{\ss}meier, \{J. M.\} and O. Wucknitz and McKenna, \{D. J.\} and Murphy, \{P. C.\} and Gallagher, \{P. T.\} and Carley, \{E. P.\} and D. Fionnag{\'a}in and A. Golden and J. McCauley and P. Callanan and M. Redman and C. Vocks",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2022.",

year = "2022",

month = apr,

day = "1",

doi = "10.1093/rasti/rzac005",

language = "English",

volume = "1",

pages = "48--57",

journal = "RAS Techniques and Instruments",

issn = "2752-8200",

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Louis, CK, Jackman, CM, Grießmeier, JM, Wucknitz, O, McKenna, DJ, Murphy, PC, Gallagher, PT, Carley, EP, Fionnagáin, D, Golden, A, McCauley, J, Callanan, P, Redman, M & Vocks, C 2022, 'Method to observe Jupiter’s radio emissions at high resolution using multiple LOFAR stations: a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations', RAS Techniques and Instruments, vol. 1, no. 1, pp. 48-57. https://doi.org/10.1093/rasti/rzac005

Method to observe Jupiter’s radio emissions at high resolution using multiple LOFAR stations: a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations. / Louis, Corentin K.; Jackman, C. M.; Grießmeier, J. M. et al.
In: RAS Techniques and Instruments, Vol. 1, No. 1, 01.04.2022, p. 48-57.

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

TY - JOUR

T1 - Method to observe Jupiter’s radio emissions at high resolution using multiple LOFAR stations

T2 - a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations

AU - Louis, Corentin K.

AU - Jackman, C. M.

AU - Grießmeier, J. M.

AU - Wucknitz, O.

AU - McKenna, D. J.

AU - Murphy, P. C.

AU - Gallagher, P. T.

AU - Carley, E. P.

AU - Fionnagáin, D.

AU - Golden, A.

AU - McCauley, J.

AU - Callanan, P.

AU - Redman, M.

AU - Vocks, C.

PY - 2022/4/1

Y1 - 2022/4/1

N2 - The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations in the Netherlands and 14 international stations spread over Europe. Here, we present an observation method to study the Jovian decametric radio emissions from several LOFAR stations (here Birr Castle in Ireland, Nançay in France, and Postdam in Germany), at high temporal and spectral resolution. This method is based on prediction tools, such as radio emission simulations and probability maps, and data processing. We report an observation of Io-induced decametric emission from 2021 June, and a first case study of the substructures that compose the macroscopic emissions (called millisecond bursts). The study of these bursts makes it possible to determine the electron populations at the origin of these emissions. We then present several possible future avenues for study based on these observations. The methodology and study perspectives described in this paper can be applied to new observations of Jovian radio emissions induced by Io, but also by Ganymede or Europa, or Jovian auroral radio emissions.

AB - The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations in the Netherlands and 14 international stations spread over Europe. Here, we present an observation method to study the Jovian decametric radio emissions from several LOFAR stations (here Birr Castle in Ireland, Nançay in France, and Postdam in Germany), at high temporal and spectral resolution. This method is based on prediction tools, such as radio emission simulations and probability maps, and data processing. We report an observation of Io-induced decametric emission from 2021 June, and a first case study of the substructures that compose the macroscopic emissions (called millisecond bursts). The study of these bursts makes it possible to determine the electron populations at the origin of these emissions. We then present several possible future avenues for study based on these observations. The methodology and study perspectives described in this paper can be applied to new observations of Jovian radio emissions induced by Io, but also by Ganymede or Europa, or Jovian auroral radio emissions.

KW - instrumentation: interferometers

KW - methods: observational

KW - planets

KW - planets and satellites: aurorae

KW - planets and satellites: individual: Io

KW - satellites: individual: Jupiter

UR - https://www.scopus.com/pages/publications/85168629238

U2 - 10.1093/rasti/rzac005

DO - 10.1093/rasti/rzac005

M3 - Article

SN - 2752-8200

VL - 1

SP - 48

EP - 57

JO - RAS Techniques and Instruments

JF - RAS Techniques and Instruments

IS - 1

ER -

Method to observe Jupiter’s radio emissions at high resolution using multiple LOFAR stations: a first case study of the Io-decametric emission using the Irish IE613, French FR606, and German DE604 stations

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Keywords

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