Date: 12/03/2019
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Various Contributors
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A New Mexico State University astronomy professor and his former graduate students are part of an international team of astronomers whose work helped create an image of the Whale Galaxy (NGC 4631), made with the National Science Foundations Karl G. Jansky Very Large Array (VLA), that reveals hair-like filaments of the galaxy’s magnetic field protruding above and below the galaxy’s disk.
The spiral galaxy NGC 4631 (nicknamed the Whale Galaxy) is seen edge-on, with its disk of stars shown in pink. The filaments, shown in green and blue, extend beyond the disk into the galaxys extended halo. Green indicates filaments with their magnetic field pointing roughly toward us and blue with the field pointing away. This phenomenon, with the field alternating in direction, has never before been seen in the halo of a galaxy. (IMAGE CREDIT:
Composite image by Jayanne English of the University of Manitoba, with NRAO VLA radio data from Silvia Carolina Mora-Partiarroyo and Marita Krause of the Max-Planck Institute for Radioastronomy. The observations are part of the project Continuum HAlos in Nearby Galaxies — an EVLA Survey (CHANG-ES). The optical data were from the Mayall 4-meter telescope, collected by Maria Patterson and Rene Walterbos of New Mexico State University. Arpad Miskolczi of the University of Bochum provided the software code for tracing the magnetic field lines.)
The spiral galaxy is seen edge-on, with its disk of stars shown in pink. The filaments, shown in green and blue, extend beyond the disk into the galaxys extended halo. Green indicates filaments with their magnetic field pointing roughly toward us and blue with the field pointing away. This phenomenon, with the field alternating in direction, has never before been seen in the halo of a galaxy.
This is the first time that we have clearly detected what astronomers call large-scale, coherent, magnetic fields far in the halo of a spiral galaxy, with the field lines aligned in the same direction over distances of a thousand light-years. We even see a regular pattern of this organized field changing direction, said Marita Krause, of the Max-Planck Institute for Radioastronomy in Bonn, Germany.
Rene Walterbos, NMSU astronomy professor emeritus and former NMSU graduate student Carlos Vargas, now a postdoctoral researcher at Arizona at University of Arizona are part of the project called the Continuum HAlos in Nearby Galaxies an EVLA Survey (CHANG-ES), led by Judith Irwin of Queen’s University in Ontario.
The image indicates a large-scale, coherent magnetic field that is generated by dynamo action within the galaxy and spirals far outward in the form of giant magnetic ropes perpendicular to the disk.
We are a little bit like the blind men and the elephant, since each time we look at the galaxy in a different way we reach a different conclusion about its nature! However, we seem to have one of those rare occasions where a classical theory, about magnetic generators called dynamos, predicted the observations of NGC 4631 quite well. Our dynamo model produces spiraling magnetic fields in the halo that are a continuation of the normal spiral arms in the galaxys disc, said Richard Henriksen, of Queens University.
The NMSU Team is contributing to the CHANG-ES project by determining the distribution of young massive stars in the galaxies, by combining optical imaging data from the Apache Point Observatory 3.5-meter telescope with infrared images from the NASA WISE mission. The Wide-field Infrared Survey Explorer is a NASA infrared wavelength astronomical space telescope launched in December 2009.
For this particular galaxy, NGC 4631, the optical data shown were obtained by former graduate student Maria Patterson as part of another project with the Kitt Peak Observatory 4-meter Mayall telescope, which offered the large field of view necessary to image the entire galaxy. Patterson obtained her Ph.D. at NMSU in 2012, Walterbos said. The radio emission originates from cosmic ray electrons spiraling in magnetic fields. The electrons, moving at close to the speed of light, arise in violent supernova explosions, the end phases of massive stars.
The spectacular magnetic field structures, seen in the VLA radio data in this image, highlight the complex interactions between stars, gas, cosmic rays and magnetic fields in this galaxy.
The scientists are continuing their work to further refine their understanding of the galaxy’s full magnetic structure.
The radio image was made by combining data from multiple observations with the VLAs giant dish antennas, arranged in different configurations to show both large structures and finer details within the galaxy. The naturally-emitted radio waves from the galaxy were analyzed to reveal the magnetic fields, including their directions.
The scientists said the techniques used to determine the direction of the magnetic field lines, illustrated by this image, now can be used on this and other galaxies to answer important questions about whether coherent magnetic fields are common in galactic halos and what their shapes are.
Building such a picture, they said, can answer important questions such as how galaxies acquire magnetic fields, and whether all such fields are produced by a dynamo effect. Can these galaxy halo fields illuminate the mysterious origin of the even larger intergalactic magnetic fields that have been observed?
NGC 4631, 25 million light-years from Earth in the constellation Canes Venatici, is about 80,000 light-years across, slightly smaller than our own Milky Way. It was discovered in 1787 by the British astronomer Sir William Herschel. This image also shows a companion, NGC 4627, a small elliptical galaxy, just above NGC 4631.
The National Radio Astronomy Observatory is a facility of the National Science Foundation, operated under cooperative agreement by Associated Universities, Inc.
The results were reported in the journal Astronomy & Astrophysics.
CHANG-ES XV: https://arxiv.org/abs/1910.07590
Theoretical models are described in Woodfinden et al. 2019 MNRAS, 487, 1498.
https://arxiv.org/abs/1905.13028
