Dust production and particle acceleration in supernova 1987a revealed with Alma

Authors

R. Indebetouw, University of Virginia
M. Matsuura, University College London
E. Dwek, NASA Goddard Space Flight Center
G. Zanardo, The University of Western Australia
M. J. Barlow, University College London
M. Baes, Universiteit Gent
P. Bouchet, CEA Saclay
D. N. Burrows, Pennsylvania State University
R. Chevalier, University of Virginia
G. C. Clayton, Louisiana State University
C. Fransson, Stockholms universitet
B. Gaensler, Australian Research Council Centre of Excellence for All-sky Astrophysics (CAASTRO)
R. Kirshner, Harvard-Smithsonian Center for Astrophysics
M. Lakićević, Keele University
K. S. Long, Space Telescope Science Institute
P. Lundqvist, Stockholms universitet
I. Martí-Vidal, Onsala Space Observatory
J. Marcaide, Universitat de València
R. McCray, University of Colorado Boulder
M. Meixner, Space Telescope Science Institute
C. Y. Ng, The University of Hong Kong
S. Park, The University of Texas at Arlington
G. Sonneborn, Space Telescope Science Institute
L. Staveley-Smith, The University of Western Australia
C. Vlahakis, Atacama Large Millimeter-submillimeter Array
J. Van Loon, Keele University

Document Type

Article

Publication Date

2-10-2014

Abstract

Supernova (SN) explosions are crucial engines driving the evolution of galaxies by shock heating gas, increasing the metallicity, creating dust, and accelerating energetic particles. In 2012 we used the Atacama Large Millimeter/Submillimeter Array to observe SN 1987A, one of the best-observed supernovae since the invention of the telescope. We present spatially resolved images at 450 μm, 870 μm, 1.4 mm, and 2.8 mm, an important transition wavelength range. Longer wavelength emission is dominated by synchrotron radiation from shock-accelerated particles, shorter wavelengths by emission from the largest mass of dust measured in a supernova remnant (>0.2 M Ȯ). For the first time we show unambiguously that this dust has formed in the inner ejecta (the cold remnants of the exploded star's core). The dust emission is concentrated at the center of the remnant, so the dust has not yet been affected by the shocks. If a significant fraction survives, and if SN 1987A is typical, supernovae are important cosmological dust producers. © 2014. The American Astronomical Society. All rights reserved.

Publication Source (Journal or Book title)

Astrophysical Journal Letters

Recommended Citation

Indebetouw, R., Matsuura, M., Dwek, E., Zanardo, G., Barlow, M., Baes, M., Bouchet, P., Burrows, D., Chevalier, R., Clayton, G., Fransson, C., Gaensler, B., Kirshner, R., Lakićević, M., Long, K., Lundqvist, P., Martí-Vidal, I., Marcaide, J., McCray, R., Meixner, M., Ng, C., Park, S., Sonneborn, G., Staveley-Smith, L., Vlahakis, C., & Van Loon, J. (2014). Dust production and particle acceleration in supernova 1987a revealed with Alma. Astrophysical Journal Letters, 782 (1) https://doi.org/10.1088/2041-8205/782/1/L2