Magnetic Field Tomography in Nearby Galaxies with the Square Kilometre Array

Heald, G.; Beck, Rainer; Blok, de Erwin; Dettmar, R. J.; Fletcher, Andrew; Gaensler, B. M.; Haverkorn, M.; Heesen, V.; Horellou, C.; Krause, M.; Mao, Sui Ann; Oppermann, N.; Scaife, Anna M. M.; Sokoloff, Dmitry; Stil, J. M.; Tabatabaei, F. S.; Takahashi, Koh; Taylor, Andrew; Williams, A. D.

doi:10.22323/1.215.0106

Cited by 14 publications

(13 citation statements)

References 30 publications

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“…This may reflect either a smaller overall number of polarized sources, perhaps arising from a decreasing fraction of Active Galactic Nuclei (AGN), and/or an on-average smaller fractional polarization for fainter sources. The latter is consistent with integrated polarization properties of disk galaxies in which internal depolarization effects from thermal plasma decreases the fractional polarization at frequencies below a few GHz (Stil et al 2009, Heald et al 2015. Faint polarized counts are thus expected to be frequency dependent and broad-band data are required to unravel the underlying astrophysics.…”

Section: Introductionsupporting

confidence: 73%

“…Band 3 will sample the regime where internal Faraday depolarization effects are negligible and alignment of polarization and geometric properties of the galaxy are preserved. Band 2 samples the depolarization regime and allows measurement of internal Faraday processes from galaxy structure (Heald et al 2015). The significant depolarization in band 2 for nearby galaxies will be substantially reduced at z >1.…”

Section: Technical Summarymentioning

confidence: 99%

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SKA Deep Polarization and Cosmic Magnetism

Taylor¹,

Agudo²,

Akahori³

et al. 2015

Proceedings of Advancing Astrophysics With the Square Kilometre Array — PoS(AASKA14)

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Deep surveys with the SKA1-MID array offer for the first time the opportunity to systematically explore the polarization properties of the microJy source population. Our knowledge of the polarized sky approaching these levels is still very limited. In total intensity the population will be dominated by star-forming and normal galaxies to intermediate redshifts (z ∼ 1 − 2), and low-luminosity AGN to high redshift. The polarized emission from these objects is a powerful probe of their intrinsic magnetic fields and of their magnetic environments. For redshift of order 1 and above the broad bandwidth of the mid-bands span the Faraday thick and thin regimes allowing study of the intrinsic polarization properties of these objects as well as depolarization from embedded and foreground plasmas. The deep field polarization images will provide Rotation Measures data with very high solid angle density allowing a sensitive statistical analysis of the angular variation of RM on critical arc-minute scales from a magnetic component of Large Scale Structure of the Universe.Advancing Astrophysics with the Square Kilometre Array

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Section: Introductionsupporting

confidence: 73%

Section: Technical Summarymentioning

confidence: 99%

SKA Deep Polarization and Cosmic Magnetism

Taylor¹,

Agudo²,

Akahori³

et al. 2015

Proceedings of Advancing Astrophysics With the Square Kilometre Array — PoS(AASKA14)

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“…The resolution in Faraday space (given by the half-power width of the RM Spread Function) for SKA1-MID Band 4 is about 400 rad/m 2 , so that only the average Faraday depth can be measured and multiple components cannot be resolved. 3-D Faraday tomography should be done at lower frequencies (Heald et al 2015) and perfectly complements this project. SKA1 observations of HI emission in nearby galaxies (de Blok et al 2015) and in particular in the Magellanic Clouds (McClure-Griffith et al 2015) will provide data on the properties and dynamics of neutral gas.…”

Section: Synergies With Other Ska1 Projectsmentioning

confidence: 87%

Structure, dynamical impact and origin of magnetic fields in nearby galaxies in the SKA era

Beck

Bomans

Colafrancesco

et al. 2015

Proceedings of Advancing Astrophysics With the Square Kilometre Array — PoS(AASKA14)

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Magnetic fields are an important ingredient of the interstellar medium (ISM). Besides their importance for star formation, they govern the transport of cosmic rays, relevant to the launch and regulation of galactic outflows and winds, which in turn are pivotal in shaping the structure of halo magnetic fields. Mapping the small-scale structure of interstellar magnetic fields in many nearby galaxies is crucial to understand the interaction between gas and magnetic fields, in particular how gas flows are affected. Elucidation of the magnetic role in, e.g., triggering star formation, forming and stabilising spiral arms, driving outflows, gas heating by reconnection and magnetising the intergalactic medium has the potential to revolutionise our physical picture of the ISM and galaxy evolution in general. Radio polarisation observations in the very nearest galaxies at high frequencies (≥ 3 GHz) and with high spatial resolution (≤ 5) hold the key here. The galaxy survey with SKA1 that we propose will also be a major step to understand the galactic dynamo, which is important for models of galaxy evolution and for astrophysical magnetohydrodynamics in general. Field amplification by turbulent gas motions, which is crucial for efficient dynamo action, has been investigated so far only in simulations, while compelling evidence of turbulent fields from observations is still lacking.

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“…A complementary approach at somewhat lower frequencies is to investigate the polarised emission and its variation across a wide frequency band. The resulting Faraday rotation measure and frequency-dependent depolarisation can be used to examine the detailed internal structure of the magnetoionic medium, both across the galaxy and along the line-of-sight via Faraday tomography (Heald et al 2015). Details that can be studied include the coherence length of the line-of sight magnetic field, the large-scale three-dimensional magnetic field structure including the vertical structure of magnetic fields and the properties and dynamical impact of magnetic fields in the disk-halo interface of star forming galaxies.…”

Section: Magnetic Fields In Nearby Galaxiesmentioning

confidence: 99%

Using SKA Rotation Measures to Reveal the Mysteries of the Magnetised Universe

Johnston‐Hollitt¹,

Govoni²,

Beck³

et al. 2015

Proceedings of Advancing Astrophysics With the Square Kilometre Array — PoS(AASKA14)

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We know that magnetic fields are pervasive across all scales in the Universe and over all of cosmic time and yet our understanding of many of the properties of magnetic fields is still limited. We do not yet know when, where or how the first magnetic fields in the Universe were formed, nor do we fully understand their role in fundamental processes such as galaxy formation or cosmic ray acceleration or how they influence the evolution of astrophysical objects. The greatest challenge to addressing these issues has been a lack of deep, broad bandwidth polarimetric data over large areas of the sky. The Square Kilometre Array will radically improve this situation via an allsky polarisation survey that delivers both high quality polarisation imaging in combination with observations of 7-14 million extragalactic rotation measures. Here we summarise how this survey will improve our understanding of a range of astrophysical phenomena on scales from individual Galactic objects to the cosmic web.Advancing Astrophysics with the Square Kilometre Array

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Magnetic Field Tomography in Nearby Galaxies with the Square Kilometre Array

Cited by 14 publications

References 30 publications

SKA Deep Polarization and Cosmic Magnetism

SKA Deep Polarization and Cosmic Magnetism

Structure, dynamical impact and origin of magnetic fields in nearby galaxies in the SKA era

Using SKA Rotation Measures to Reveal the Mysteries of the Magnetised Universe

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