APOD: Bright Supernova in M82 (2014 Jan 24)

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APOD: Bright Supernova in M82 (2014 Jan 24)

Post by APOD Robot » Fri Jan 24, 2014 5:10 am

Image Bright Supernova in M82

Explanation: Astronomers really don't find supernovae by looking for the arrows. But in this image taken January 23rd, an arrow does point to an exciting, new supernova, now cataloged as SN 2014J, in nearby bright galaxy M82. Located near the Big Dipper in planet Earth's sky, M82 is also known as the Cigar Galaxy, a popular target for telescopes in the northern hemisphere. In fact, SN 2014J was first spotted as an unfamiliar source in the otherwise familiar galaxy by teaching fellow Steve Fossey and astronomy workshop students Ben Cooke, Tom Wright, Matthew Wilde and Guy Pollack at the University College London Observatory on the evening of January 21. M82 is a mere 12 million light-years away (so the supernova explosion did happen 12 million years ago, that light just now reaching Earth), making supernova SN 2014J one of the closest to be seen in recent decades. Spectra indicate it is a Type Ia supernova caused by the explosion of a white dwarf accreting matter from a companion star. By some estimates two weeks away from its maximum brightness, SN 2014J is already the brightest part of M82 and visible in small telescopes in the evening sky.

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Nitpicker » Fri Jan 24, 2014 5:37 am

... now known as the Exploding Cigar Galaxy ...

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Ann » Fri Jan 24, 2014 5:39 am

Oh, what a timely APOD! :D And I'm so glad that Adam Block's superb image was the one chosen to show this new supernova.

Adam's picture shows that there is a lot of dust where the supernova is located, which explains its reddish color. In any case, it is going to be so interesting to see how this supernova evolves!

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by geckzilla » Fri Jan 24, 2014 5:46 am

Adam Block swoops in to steal the show once again with his excellent work.

I find myself curious about the diffraction spike pattern around the star in the upper right. I know it's an odd thing to point out but it's rather unusual.
Ann wrote:Adam's picture shows that there is a lot of dust where the supernova is located, which explains its reddish color.
Possibly. What if it's in front of or otherwise not occluded by the dust as much as you're assuming?
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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by ngc1535 » Fri Jan 24, 2014 5:55 am

HI Geckzilla,

I am not certain what is scattering the extra light. I will need to check out the secondary mirror supports and see if there is a wire or something peeking out causing the extra spikes.
It is certainly something new in the optical path I need to track down. I hope it does not deter from the image too much. :)
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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by geckzilla » Fri Jan 24, 2014 6:05 am

Oh, so that's it. I was wondering if you were trying something new or if there was something about the processing. Turns out it's just a bug. it doesn't deter from the image. I only noticed it after taking a second look.
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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by BDanielMayfield » Fri Jan 24, 2014 6:07 am

Since it is expected to brighten for another two weeks, and since a supernova can breifly out-shine an entire galaxy, how bright can we expect this to become? Will this become a naked eye object?

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Nitpicker » Fri Jan 24, 2014 6:22 am

BDanielMayfield wrote:Since it is expected to brighten for another two weeks, and since a supernova can breifly out-shine an entire galaxy, how bright can we expect this to become? Will this become a naked eye object?
According to what I have just read about Normal Type Ia supernovae, they all have an absolute magnitude of around -19.3, meaning that this one will have an apparent magnitude of about +8.5. So, visible in binoculars, but not to the unaided eye.

8.5 = -19.3 - 5 (1- log10[3,700,000pc])

Edit: this formula is not particularly accurate for objects beyond the Milky Way.
Last edited by Nitpicker on Fri Jan 24, 2014 8:00 am, edited 1 time in total.

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Ann » Fri Jan 24, 2014 7:47 am


Obviously I might be boring people with all my talk about the dusty nature of M82, but it really is a so very dusty galaxy.

This picture, courtesy of NASA/JPL-Caltech/UCLA, is an infrared image of galaxies M81 and M82. M81 is at bottom and looks blue from starlight, whereas M82 is at top and looks red from fantastic amounts of dust. The difference in dust content between these two galaxies is made abundantly clear by this picture.

So it is no wonder if the supernova in M82 is reddened by dust!

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Boomer12k » Fri Jan 24, 2014 7:53 am

Really neat there is a Supernova in one of my favorite objects....and I would go see if I could take pic...but it is very cold here, and I hate getting out in it...

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by TimJewell » Fri Jan 24, 2014 8:12 am

If a star with sufficient mass near our solar system were to supernova, what would that mean for us on Earth? Would it appear as bright as our sun? Is there a danger that the blast would be so great it would rip the atmosphere from our planet?

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by MargaritaMc » Fri Jan 24, 2014 10:41 am

http://asterisk.apod.com/viewtopic.php?f=31&t=32797
In the Breaking Science News sub forum.
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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Nitpicker » Fri Jan 24, 2014 12:12 pm

TimJewell wrote:If a star with sufficient mass near our solar system were to supernova, what would that mean for us on Earth? Would it appear as bright as our sun? Is there a danger that the blast would be so great it would rip the atmosphere from our planet?
It depends how near you mean.

The Sun has an apparent magnitude of -26.7. The next nearest star is about four light years from us. If a Normal Type Ia supernova happened at that distance from us, it would shine with an apparent magnitude of about -24 [sums unchecked], so not quite as bright as the Sun from our perspective. I'm not sure, but I reckon we might be in a spot of radioactive bother, if such a supernova happened so close.

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a spot of radioactive bother

Post by neufer » Fri Jan 24, 2014 1:05 pm

Nitpicker wrote:
TimJewell wrote:
If a star with sufficient mass near our solar system were to supernova, what would that mean for us on Earth? Would it appear as bright as our sun? Is there a danger that the blast would be so great it would rip the atmosphere from our planet?
It depends how near you mean.

The Sun has an apparent magnitude of -26.7. The next nearest star is about four light years from us. If a Normal Type Ia supernova happened at that distance from us, it would shine with an apparent magnitude of about -24 [sums unchecked], so not quite as bright as the Sun from our perspective. I'm not sure, but I reckon we might be in a spot of radioactive bother, if such a supernova happened so close.
It would be a bit of unpleasantness (especially with a Type Ia) but we would probably be OK
just so long as we weren't lying in the immediate direction of a supernova's gamma ray burst.

(All suspected pre-supernova stars are checked to make sure that their axis of rotation is NOT pointing directly at us.)
http://en.wikipedia.org/wiki/Near-Earth_supernova wrote:
<<Adrian L. Melott et al. estimated that gamma ray bursts from "dangerously close" supernova explosions occur two or more times per billion years, and this has been proposed as the cause of the end Ordovician extinction, which resulted in the death of nearly 60% of the oceanic life on Earth.>>
http://en.wikipedia.org/wiki/Near-Earth_supernova wrote:
<<A near-Earth supernova is an explosion resulting from the death of a star that occurs close enough to the Earth to have noticeable effects on its biosphere.

On average, a supernova explosion occurs within 10 parsecs (33 light-years) of the Earth every 240 million years. Gamma rays are responsible for most of the adverse effects a supernova can have on a living terrestrial planet. In Earth's case, gamma rays induce a chemical reaction in the upper atmosphere, converting molecular nitrogen into nitrogen oxides, depleting the ozone layer enough to expose the surface to harmful solar and cosmic radiation. Phytoplankton and reef communities would be particularly affected, which could severely deplete the base of the marine food chain.

Speculation as to the effects of a nearby supernova on Earth often focuses on large stars as Type II supernova candidates. Several prominent stars within a few hundred light years from the Sun are candidates for becoming supernovae in as little as a millennium. One example is Betelgeuse, a red supergiant about 640 light-years from Earth. Though spectacular, these "predictable" supernovae are thought to have little potential to affect Earth.

Recent estimates predict that a Type II supernova would have to be closer than eight parsecs (26 light-years) to destroy half of the Earth's ozone layer. Such estimates are mostly concerned with atmospheric modeling and considered only the known radiation flux from SN 1987A, a Type II supernova in the Large Magellanic Cloud. Estimates of the rate of supernova occurrence within 10 parsecs of the Earth vary from 0.05-0.5 per Ga to 10 per Ga. Several authors have based their estimates on the idea that supernovae are concentrated in the spiral arms of the galaxy, and that supernova explosions near the Sun usually occur during the ~10 million years that the Sun takes to pass through one of these regions (we are now in or entering the Orion arm). The relatively recent paper by Gehrels et al. uses a value of 3 supernovae less than 10 parsecs away per Ga. The frequency within a distance D is proportional to D3 for small values of D, but for larger values is proportional to D2 because of the finite thickness of the galactic disk (at intergalactic distances D3 is again appropriate). Examples of relatively near supernovae are the Vela Supernova Remnant (~800 ly, ~12,000 years ago) and Geminga (~550 ly, ~300,000 years ago).

Type Ia supernovae are thought to be potentially the most dangerous if they occur close enough to the Earth. Because Type Ia supernovae arise from dim, common white dwarf stars, it is likely that a supernova that could affect the Earth will occur unpredictably and take place in a star system that is not well studied. One theory suggests that a Type Ia supernova would have to be closer than 10 parsecs (33 light-years) to affect the Earth. The closest known candidate is IK Pegasi. It is currently estimated, however, that by the time it could become a threat, its velocity in relation to the Solar System would have carried IK Pegasi to a safe distance.

Evidence from daughter products of short-lived radioactive isotopes shows that a nearby supernova helped determine the composition of the Solar System 4.5 billion years ago, and may even have triggered the formation of this system. Supernova production of heavy elements over astronomic periods of time ultimately made the chemistry of life on Earth possible.

In 1996, astronomers at the University of Illinois at Urbana-Champaign theorized that traces of past supernovae might be detectable on Earth in the form of metal isotope signatures in rock strata. Subsequently, iron-60 enrichment has been reported in deep-sea rock of the Pacific Ocean by researchers from the Technical University of Munich. 23 atoms of this iron isotope were found in the top 2 cm of crust, and these date from the last 13 million years or so. It is estimated that the supernova must have occurred in the last 5 million years or else it would have had to have happened very close to the solar system to account for so much iron-60 still being here. A supernova occurring so close would have probably caused a mass extinction, which didn't happen in that time frame. The quantity of iron seems to indicate that the supernova was less than 30 parsecs away. On the other hand, the authors estimate the frequency of supernovae at a distance less than D (for reasonably small D) as around (D/10 pc)3 per Ga, which gives a probability of only around 5% for a supernova within 30 pc in the last 5 million years. They point out that the probability may be higher because we are entering the Orion arm of the Milky Way.

In 2009, researchers have found nitrates in ice cores from Antarctica at depths corresponding to the known supernovae of 1006 and 1054 CE, as well as from around 1060 CE. The nitrates were apparently formed from nitrogen oxides created by gamma rays from the supernovae. This technique should be able to detect supernovae going back several thousand years.

In 1998 a supernova remnant, RX J0852.0-4622, was found in front (apparently) of the larger Vela Supernova Remnant. Gamma rays from the decay of titanium-44 (half-life about 60 years) were independently discovered coming from it, showing that it must have exploded fairly recently (perhaps around 1200 CE), but there is no historical record of it. The flux of gamma rays and x-rays indicates that the supernova was relatively close to us (perhaps 200 parsecs or 660 ly). If so, this is a surprising event because supernovae less than 200 parsecs away are estimated to occur less than once per 100,000 years.>>
Art Neuendorffer

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Ironwood » Fri Jan 24, 2014 1:34 pm

It looks to me as if the arrow is misaligned. The bright structure it points toward looks to be a cloud thousands of light years in diameter rather than a point source new supernova.

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by neufer » Fri Jan 24, 2014 2:34 pm

Ann wrote:
Oh, what a timely APOD! :D And I'm so glad that Adam Block's superb image was the one chosen to show this new supernova.

Adam's picture shows that there is a lot of dust where the supernova is located, which explains its reddish color. In any case, it is going to be so interesting to see how this supernova evolves!
OTOH...in order to bring out that dust in the picture every point source over 14th magnitude is overexposed and we have little real sense as to the actual brightness of the supernova.
Ironwood wrote:
It looks to me as if the arrow is misaligned. The bright structure it points toward looks to be a cloud thousands of light years in diameter rather than a point source new supernova.
The arrow is slightly misaligned but the large bright structure it (almost) points towards is the overexposed supernova.
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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Ann » Fri Jan 24, 2014 4:15 pm

neufer wrote:
Ann wrote:
Oh, what a timely APOD! :D And I'm so glad that Adam Block's superb image was the one chosen to show this new supernova.

Adam's picture shows that there is a lot of dust where the supernova is located, which explains its reddish color. In any case, it is going to be so interesting to see how this supernova evolves!
OTOH...in order to bring out that dust in the picture every point source over 14th magnitude is overexposed and we have little real sense as to the actual brightness of the supernova.
Ironwood wrote:
It looks to me as if the arrow is misaligned. The bright structure it points toward looks to be a cloud thousands of light years in diameter rather than a point source new supernova.
The arrow is slightly misaligned but the large bright structure it (almost) points towards is the overexposed supernova.
I see what you mean, Art, but I hope you appreciate the "color demonstration" of the dustiness of M82 in my second post.

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Angelino1984 » Fri Jan 24, 2014 5:47 pm

Nice Pic,how far is M82?

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by rstevenson » Fri Jan 24, 2014 6:17 pm

Angelino1984 wrote:Nice Pic,how far is M82?
As it says under the pic, "M82 is a mere 12 million light-years away".

Perhaps you read that and didn't recognize it as a distance. One light-year is the distance covered by light in one year -- and light travels at 300,000 km/s. So the light from M82 has been travelling towards us for 12 million years, at its usual pace of 300,000 km/s. That puts M82 a long way away!

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Chris Peterson » Fri Jan 24, 2014 7:38 pm

rstevenson wrote:
Angelino1984 wrote:Nice Pic,how far is M82?
As it says under the pic, "M82 is a mere 12 million light-years away".

Perhaps you read that and didn't recognize it as a distance. One light-year is the distance covered by light in one year -- and light travels at 300,000 km/s. So the light from M82 has been travelling towards us for 12 million years, at its usual pace of 300,000 km/s. That puts M82 a long way away!
I'd say it makes it one of the very closest galaxies we see. Indeed, only an infinitesimal fraction of all we observe in the Universe is closer to us than a mere 12 million light years.
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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Nitpicker » Fri Jan 24, 2014 8:45 pm

Chris Peterson wrote:
rstevenson wrote:
Angelino1984 wrote:Nice Pic,how far is M82?
As it says under the pic, "M82 is a mere 12 million light-years away".

Perhaps you read that and didn't recognize it as a distance. One light-year is the distance covered by light in one year -- and light travels at 300,000 km/s. So the light from M82 has been travelling towards us for 12 million years, at its usual pace of 300,000 km/s. That puts M82 a long way away!
I'd say it makes it one of the very closest galaxies we see. Indeed, only an infinitesimal fraction of all we observe in the Universe is closer to us than a mere 12 million light years.
On the other hand, the vast majority of apparently bright objects we see in the night sky (with just our eyes, binoculars, or a small telescope) are within the Milky Way, more than 100 times closer than M82.

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Chris Peterson » Fri Jan 24, 2014 8:56 pm

Nitpicker wrote:On the other hand, the vast majority of apparently bright objects we see in the night sky (with just our eyes, binoculars, or a small telescope) are within the Milky Way, more than 100 times closer than M82.
True, but who cares about the Milky Way? Get rid of it completely, and the Universe would never notice the difference.
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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by rstevenson » Fri Jan 24, 2014 8:57 pm

Chris Peterson wrote:
rstevenson wrote:... That puts M82 a long way away!
I'd say it makes it one of the very closest galaxies we see. Indeed, only an infinitesimal fraction of all we observe in the Universe is closer to us than a mere 12 million light years.
It's all relative, as you know. If we take the fastest launch speed we've ever achieved, that of New Horizons (according to this Scientific American blog), 45 km/s, then our travel time (assuming we could maintain that speed, which we can't, because of the Sun's gravity) would be 300000/45 x 12 million, or about 8 billion years. In my book, that's a long way away, even if almost everything else is even farther away.

To make such a journey in a reasonable amount of time, say 20 years apparent time for the traveller, we'd need a way to reach a velocity of 0.999999999999 c. Alas, we can't do that yet. :mrgreen:

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by geckzilla » Fri Jan 24, 2014 9:14 pm

Wait, Rob. Where are you trying to go in 20 years at .999999999999 c?
Just call me "geck" because "zilla" is like a last name.

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Re: APOD: Bright Supernova in M82 (2014 Jan 24)

Post by Chris Peterson » Fri Jan 24, 2014 9:16 pm

rstevenson wrote:It's all relative, as you know.
Very true. It would take a bacterium living in my pond millions of years at its top speed to make it to the nearest supermarket for a bit of sugar. That store is very far away, indeed.
If we take the fastest launch speed we've ever achieved, that of New Horizons (according to this Scientific American blog), 45 km/s, then our travel time (assuming we could maintain that speed, which we can't, because of the Sun's gravity) would be 300000/45 x 12 million, or about 8 billion years. In my book, that's a long way away, even if almost everything else is even farther away.
Of course, my comments were a bit tongue-in-cheek. But that said, I do think it's a mistake to try and frame the distance to something like M82 in terms of human scales, or human travel time. It doesn't make sense in most contexts. From an astronomical standpoint, it is the nearness of this galaxy that is part of what makes it so interesting. The editors like to emphasize that in their captions with qualifiers like "mere" in cases like this. We really need to use a different metric for distance when we study the entire Universe. We should be emphasizing that this galaxy is really very close... just a few times farther than galaxies in the Local Group.
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