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Magnetic fields in normal galaxies

Linearly polarized radio continuum emission is a powerful tool for studying the strength and structure of interstellar magnetic fields in galaxies. Interstellar magnetic fields with a well-ordered spiral structure exist in grand-design, flocculent and even irregular galaxies. In grand-design galaxie...

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Published in:	Philosophical transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences physical, and engineering sciences, 2000-02, Vol.358 (1767), p.777-796
Main Author:	Beck, Rainer
Format:	Article
Language:	English
Subjects:	Faraday effect Field strength Galactic structure Galaxies Interstellar Medium Magnetic field strength Magnetic Fields Polarization Dynamos Spiral Arms Spiral galaxies Telescopes Wavelengths
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container_title	Philosophical transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences
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creator	Beck, Rainer
description	Linearly polarized radio continuum emission is a powerful tool for studying the strength and structure of interstellar magnetic fields in galaxies. Interstellar magnetic fields with a well-ordered spiral structure exist in grand-design, flocculent and even irregular galaxies. In grand-design galaxies the fields are aligned parallel to the optical spiral arms, but the strongest regular fields are found in interarm regions, sometimes forming 'magnetic spiral arms' between the optical spiral arms. Processes related to star formation tangle the field in the spiral arms. Faraday rotation of the polarization vectors shows patterns which support the existence of coherent large-scale fields in galactic discs. In a few galaxies an axisymmetric spiral pattern dominates, while others host a bisymmetric spiral field or a superposition of dynamo modes. In the majority of axisymmetric cases the field is directed inwards. In barred galaxies the magnetic field seems to follow the gas flow within the bar. The location of the shock front in the magnetic field deviates from that expected from hydrodynamical models. Within (and interior to) the circumnuclear ring the field is again of spiral shape, which leads to magnetic stresses, possibly driving gas inflow towards the active nucleus. The next-generation radio telescopes should be able to reveal the wealth of magnetic structures in galaxies.
doi_str_mv	10.1098/rsta.2000.0558
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In a few galaxies an axisymmetric spiral pattern dominates, while others host a bisymmetric spiral field or a superposition of dynamo modes. In the majority of axisymmetric cases the field is directed inwards. In barred galaxies the magnetic field seems to follow the gas flow within the bar. The location of the shock front in the magnetic field deviates from that expected from hydrodynamical models. Within (and interior to) the circumnuclear ring the field is again of spiral shape, which leads to magnetic stresses, possibly driving gas inflow towards the active nucleus. 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Faraday rotation of the polarization vectors shows patterns which support the existence of coherent large-scale fields in galactic discs. In a few galaxies an axisymmetric spiral pattern dominates, while others host a bisymmetric spiral field or a superposition of dynamo modes. In the majority of axisymmetric cases the field is directed inwards. In barred galaxies the magnetic field seems to follow the gas flow within the bar. The location of the shock front in the magnetic field deviates from that expected from hydrodynamical models. Within (and interior to) the circumnuclear ring the field is again of spiral shape, which leads to magnetic stresses, possibly driving gas inflow towards the active nucleus. The next-generation radio telescopes should be able to reveal the wealth of magnetic structures in galaxies.</description><subject>Faraday effect</subject><subject>Field strength</subject><subject>Galactic structure</subject><subject>Galaxies</subject><subject>Interstellar Medium</subject><subject>Magnetic field strength</subject><subject>Magnetic Fields</subject><subject>Polarization Dynamos</subject><subject>Spiral Arms</subject><subject>Spiral galaxies</subject><subject>Telescopes</subject><subject>Wavelengths</subject><issn>1364-503X</issn><issn>1471-2962</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><recordid>eNp9jzFPwzAQhSMEEqWwMjFU7AlnO7aTCaGKtkhFDECFWE5O4rQuIansVDT_noSgCgaY7k7vvnf3PO-cQEAgjq6sq1VAASAAzqMDb0BCSXwaC3rY9kyEPgf2cuydOLcGIERwOvAu79Wy1LVJR7nRReZGphyVlX1XxWipCrUz2p16R7kqnD77rkPveXL7NJ7584fp3fhm7qchk7WfiJhRUFlKlOQJlzLUUcQzyIVMeZzQTMkwjEGmMSTAsoQDp4RqnmuhIdc5G3pB75vayjmrc9xY865sgwSwS4hdQuwSYpewBVgP2KppH6tSo-sG19XWlu34N3XRU2tXV3Z_gwohYsJa2e9l42q928vKvqGQTHJcRCG-ktnjdDJe4Kzdv-73V2a5-jBW469vvo6nVVnrskbGIyRSSJRSYr4tCtxkXW7416FqNq3HT5Z9AuKLlc4</recordid><startdate>20000215</startdate><enddate>20000215</enddate><creator>Beck, Rainer</creator><general>The Royal Society</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20000215</creationdate><title>Magnetic fields in normal galaxies</title><author>Beck, Rainer</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c437t-b69320adc1a75b5774e885d0f67c59b2da744907c90b03db505212e5fe6e0fef3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2000</creationdate><topic>Faraday effect</topic><topic>Field strength</topic><topic>Galactic structure</topic><topic>Galaxies</topic><topic>Interstellar Medium</topic><topic>Magnetic field strength</topic><topic>Magnetic Fields</topic><topic>Polarization Dynamos</topic><topic>Spiral Arms</topic><topic>Spiral galaxies</topic><topic>Telescopes</topic><topic>Wavelengths</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Beck, Rainer</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><jtitle>Philosophical transactions of the Royal Society of London. 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Interstellar magnetic fields with a well-ordered spiral structure exist in grand-design, flocculent and even irregular galaxies. In grand-design galaxies the fields are aligned parallel to the optical spiral arms, but the strongest regular fields are found in interarm regions, sometimes forming 'magnetic spiral arms' between the optical spiral arms. Processes related to star formation tangle the field in the spiral arms. Faraday rotation of the polarization vectors shows patterns which support the existence of coherent large-scale fields in galactic discs. In a few galaxies an axisymmetric spiral pattern dominates, while others host a bisymmetric spiral field or a superposition of dynamo modes. In the majority of axisymmetric cases the field is directed inwards. In barred galaxies the magnetic field seems to follow the gas flow within the bar. The location of the shock front in the magnetic field deviates from that expected from hydrodynamical models. Within (and interior to) the circumnuclear ring the field is again of spiral shape, which leads to magnetic stresses, possibly driving gas inflow towards the active nucleus. The next-generation radio telescopes should be able to reveal the wealth of magnetic structures in galaxies.</abstract><pub>The Royal Society</pub><doi>10.1098/rsta.2000.0558</doi><tpages>20</tpages></addata></record>
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source	JSTOR Archival Journals and Primary Sources Collection; Royal Society Publishing Jisc Collections Royal Society Journals Read & Publish Transitional Agreement 2025 (reading list)
subjects	Faraday effect Field strength Galactic structure Galaxies Interstellar Medium Magnetic field strength Magnetic Fields Polarization Dynamos Spiral Arms Spiral galaxies Telescopes Wavelengths
title	Magnetic fields in normal galaxies
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