28 April 2017
Susanna Kohler
Blue dots in this image mark the locations of infared transients — explosive or fleeting events — that were recently discovered by a survey called SPIRITS. [Kasliwal et al. 2017]
In recent years, astronomers have developed many wide-field imaging surveys in which the same targets are observed again and again. This new form of observing has allowed us to discover optical and radio transients — explosive or irregular events with durations ranging from seconds to years. The dynamic infrared sky, however, has remained largely unexplored … until now.
Infrared Exploration
Why hunt for infrared transients? Optical wavelengths don’t allow us to observe events that are obscured, such that their own structure or their surroundings hide them from our view. Both supernovae and luminous red novae (associated with stellar mergers) are discoverable as infrared transients, and there may well be new types of transients in infrared that we haven’t seen before!
To explore this uncharted territory, a team of scientists developed SPIRITS, the Spitzer Infrared Intensive Transients Survey. Begun in 2014, SPIRITS is a five-year long survey that uses the Spitzer Space Telescope to conduct a systematic search for mid-infrared transients in nearby galaxies.
Example of a transient: SPIRITS 14ajc was visible when imaged by SPIRITS in 2014 (left) but it wasn’t there during previous imaging between 2004 and 2008 (right). The bottom frame shows the difference between the two images. [Adapted from Kasliwal et al. 2017]
In a recent publication led by Mansi Kasliwal (Caltech and the Carnegie Institution for Science), the SPIRITS team has now detailed how their survey works and what they’ve discovered in its first year.
The light curves of SPRITEs (red stars) lie in the mid-infared luminosity gap between novae (orange) and supernovae (blue). [Kasliwal et al. 2017]
Mystery Transients
Kasliwal and collaborators used Spitzer to monitor 190 nearby galaxies. In SPIRITS’ first year, they found over 1958 variable stars and 43 infrared transient sources. Of these 43 transients, 21 were known supernovae, 4 were in the luminosity range of novae, and 4 had optical counterparts. The remaining 14 events were designated “eSPecially Red Intermediate-luminosity Transient Events”, or SPRITEs.
SPRITEs are unusual infrared transients that lie in the luminosity gap between novae and supernovae, and they have no optical counterparts. They all occur in star-forming galaxies.
Search for the Cause
What’s the physical origin of these phenomena? The authors explore a number of possible sources, including obscured supernovae, stellar mergers with dusty winds, collapse of extreme stars, or even weak shocks in failed supernovae.
Spitzer image of Messier 83, one of the closest barred spiral galaxies in the sky. SPIRITS 14ajc was discovered in one of Messier 83’s spiral arms. [NASA/JPL-Caltech]
In one case, SPIRITS 14ajc, the SPRITE’s spectrum shows signs of excited molecular hydrogen lines, which are indicative of a shock. Based on the data, Kasliwal and collaborators propose that the shock might have been driven into a molecular cloud after it was triggered by the decay of a system of massive stars that either passed closely or collided and merged.
The other SPRITEs may all have different origins, however, and in general the infrared photometric data isn’t sufficient to identify which model fits each transient. Future technology, like spectroscopy with the James Webb Space Telescope, may help us to better understand the origins of these elusive transients, though. And future surveying with projects like SPIRITS will help us to discover more SPRITE-like events, expanding our understanding of the dynamic infrared sky.
Citation
Mansi M. Kasliwal et al 2017 ApJ 839 88. doi:10.3847/1538-4357/aa6978
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See the full article here .
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