Binaries with the eyes of CTA

J. M. Paredes; W. Bednarek; P. Bordas; V. Bosch-Ramon; E. De Cea Del Pozo; G. Dubus; S. Funk; D. Hadasch; D. Khangulyan; S. Markoff; J. Moldon; P. Munar-Adrover; S. Nagataki; T. Naito; M. De Naurois; G. Pedaletti; O. Reimerm; M. Ribo; A. Szostek; Y. Terada; D. F. Torres; V. Zabalza; A. A. Zdziarski

doi:10.1016/j.astropartphys.2012.09.004

Binaries with the eyes of CTA

J. M. Paredes, W. Bednarek, P. Bordas, V. Bosch-Ramon, E. De Cea Del Pozo, G. Dubus, S. Funk, D. Hadasch, D. Khangulyan, S. Markoff, J. Moldon, P. Munar-Adrover, S. Nagataki, T. Naito, M. De Naurois, G. Pedaletti, O. Reimerm, M. Ribo, A. Szostek, Y. TeradaD. F. Torres, V. Zabalza, A. A. Zdziarski

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

Abstract

The binary systems that have been detected in gamma rays have proven very useful to study high-energy processes, in particular particle acceleration, emission and radiation reprocessing, and the dynamics of the underlying magnetized flows. Binary systems, either detected or potential gamma-ray emitters, can be grouped in different subclasses depending on the nature of the binary components or the origin of the particle acceleration: the interaction of the winds of either a pulsar and a massive star or two massive stars; accretion onto a compact object and jet formation; and interaction of a relativistic outflow with the external medium. We evaluate the potentialities of an instrument like the Cherenkov telescope array (CTA) to study the non-thermal physics of gamma-ray binaries, which requires the observation of high-energy phenomena at different time and spatial scales. We analyze the capability of CTA, under different configurations, to probe the spectral, temporal and spatial behavior of gamma-ray binaries in the context of the known or expected physics of these sources. CTA will be able to probe with high spectral, temporal and spatial resolution the physical processes behind the gamma-ray emission in binaries, significantly increasing as well the number of known sources. This will allow the derivation of information on the particle acceleration and emission sites qualitatively better than what is currently available.

Original language	English
Pages (from-to)	301-316
Number of pages	16
Journal	Astroparticle Physics
Volume	43
DOIs	https://doi.org/10.1016/j.astropartphys.2012.09.004
Publication status	Published - 1 Jan 2013
Externally published	Yes

Keywords

Acceleration of particles
Binaries: general
Cherenkov astronomy
Gamma-rays: observations
Radiation mechanisms: non-thermal
Telescopes

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10.1016/j.astropartphys.2012.09.004

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Paredes, J. M., Bednarek, W., Bordas, P., Bosch-Ramon, V., De Cea Del Pozo, E., Dubus, G., Funk, S., Hadasch, D., Khangulyan, D., Markoff, S., Moldon, J., Munar-Adrover, P., Nagataki, S., Naito, T., De Naurois, M., Pedaletti, G., Reimerm, O., Ribo, M., Szostek, A., ... Zdziarski, A. A. (2013). Binaries with the eyes of CTA. Astroparticle Physics, 43, 301-316. https://doi.org/10.1016/j.astropartphys.2012.09.004

@article{df7a174fd4ef45a2b56c16ee20534db8,

title = "Binaries with the eyes of CTA",

abstract = "The binary systems that have been detected in gamma rays have proven very useful to study high-energy processes, in particular particle acceleration, emission and radiation reprocessing, and the dynamics of the underlying magnetized flows. Binary systems, either detected or potential gamma-ray emitters, can be grouped in different subclasses depending on the nature of the binary components or the origin of the particle acceleration: the interaction of the winds of either a pulsar and a massive star or two massive stars; accretion onto a compact object and jet formation; and interaction of a relativistic outflow with the external medium. We evaluate the potentialities of an instrument like the Cherenkov telescope array (CTA) to study the non-thermal physics of gamma-ray binaries, which requires the observation of high-energy phenomena at different time and spatial scales. We analyze the capability of CTA, under different configurations, to probe the spectral, temporal and spatial behavior of gamma-ray binaries in the context of the known or expected physics of these sources. CTA will be able to probe with high spectral, temporal and spatial resolution the physical processes behind the gamma-ray emission in binaries, significantly increasing as well the number of known sources. This will allow the derivation of information on the particle acceleration and emission sites qualitatively better than what is currently available.",

keywords = "Acceleration of particles, Binaries: general, Cherenkov astronomy, Gamma-rays: observations, Radiation mechanisms: non-thermal, Telescopes",

author = "Paredes, \{J. M.\} and W. Bednarek and P. Bordas and V. Bosch-Ramon and \{De Cea Del Pozo\}, E. and G. Dubus and S. Funk and D. Hadasch and D. Khangulyan and S. Markoff and J. Moldon and P. Munar-Adrover and S. Nagataki and T. Naito and \{De Naurois\}, M. and G. Pedaletti and O. Reimerm and M. Ribo and A. Szostek and Y. Terada and Torres, \{D. F.\} and V. Zabalza and Zdziarski, \{A. A.\}",

year = "2013",

month = jan,

day = "1",

doi = "10.1016/j.astropartphys.2012.09.004",

language = "English",

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pages = "301--316",

journal = "Astroparticle Physics",

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Paredes, JM, Bednarek, W, Bordas, P, Bosch-Ramon, V, De Cea Del Pozo, E, Dubus, G, Funk, S, Hadasch, D, Khangulyan, D, Markoff, S, Moldon, J, Munar-Adrover, P, Nagataki, S, Naito, T, De Naurois, M, Pedaletti, G, Reimerm, O, Ribo, M, Szostek, A, Terada, Y, Torres, DF, Zabalza, V & Zdziarski, AA 2013, 'Binaries with the eyes of CTA', Astroparticle Physics, vol. 43, pp. 301-316. https://doi.org/10.1016/j.astropartphys.2012.09.004

TY - JOUR

T1 - Binaries with the eyes of CTA

AU - Paredes, J. M.

AU - Bednarek, W.

AU - Bordas, P.

AU - Bosch-Ramon, V.

AU - De Cea Del Pozo, E.

AU - Dubus, G.

AU - Funk, S.

AU - Hadasch, D.

AU - Khangulyan, D.

AU - Markoff, S.

AU - Moldon, J.

AU - Munar-Adrover, P.

AU - Nagataki, S.

AU - Naito, T.

AU - De Naurois, M.

AU - Pedaletti, G.

AU - Reimerm, O.

AU - Ribo, M.

AU - Szostek, A.

AU - Terada, Y.

AU - Torres, D. F.

AU - Zabalza, V.

AU - Zdziarski, A. A.

PY - 2013/1/1

Y1 - 2013/1/1

N2 - The binary systems that have been detected in gamma rays have proven very useful to study high-energy processes, in particular particle acceleration, emission and radiation reprocessing, and the dynamics of the underlying magnetized flows. Binary systems, either detected or potential gamma-ray emitters, can be grouped in different subclasses depending on the nature of the binary components or the origin of the particle acceleration: the interaction of the winds of either a pulsar and a massive star or two massive stars; accretion onto a compact object and jet formation; and interaction of a relativistic outflow with the external medium. We evaluate the potentialities of an instrument like the Cherenkov telescope array (CTA) to study the non-thermal physics of gamma-ray binaries, which requires the observation of high-energy phenomena at different time and spatial scales. We analyze the capability of CTA, under different configurations, to probe the spectral, temporal and spatial behavior of gamma-ray binaries in the context of the known or expected physics of these sources. CTA will be able to probe with high spectral, temporal and spatial resolution the physical processes behind the gamma-ray emission in binaries, significantly increasing as well the number of known sources. This will allow the derivation of information on the particle acceleration and emission sites qualitatively better than what is currently available.

AB - The binary systems that have been detected in gamma rays have proven very useful to study high-energy processes, in particular particle acceleration, emission and radiation reprocessing, and the dynamics of the underlying magnetized flows. Binary systems, either detected or potential gamma-ray emitters, can be grouped in different subclasses depending on the nature of the binary components or the origin of the particle acceleration: the interaction of the winds of either a pulsar and a massive star or two massive stars; accretion onto a compact object and jet formation; and interaction of a relativistic outflow with the external medium. We evaluate the potentialities of an instrument like the Cherenkov telescope array (CTA) to study the non-thermal physics of gamma-ray binaries, which requires the observation of high-energy phenomena at different time and spatial scales. We analyze the capability of CTA, under different configurations, to probe the spectral, temporal and spatial behavior of gamma-ray binaries in the context of the known or expected physics of these sources. CTA will be able to probe with high spectral, temporal and spatial resolution the physical processes behind the gamma-ray emission in binaries, significantly increasing as well the number of known sources. This will allow the derivation of information on the particle acceleration and emission sites qualitatively better than what is currently available.

KW - Acceleration of particles

KW - Binaries: general

KW - Cherenkov astronomy

KW - Gamma-rays: observations

KW - Radiation mechanisms: non-thermal

KW - Telescopes

U2 - 10.1016/j.astropartphys.2012.09.004

DO - 10.1016/j.astropartphys.2012.09.004

M3 - Article

AN - SCOPUS:84879856204

SN - 0927-6505

VL - 43

SP - 301

EP - 316

JO - Astroparticle Physics

JF - Astroparticle Physics

ER -

Binaries with the eyes of CTA

Abstract

Keywords

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