152 lines
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152 lines
10 KiB
Plaintext
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Episode: 3857
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Title: HPR3857: Yesterday I saw a solar flare
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Source: https://hub.hackerpublicradio.org/ccdn.php?filename=/eps/hpr3857/hpr3857.mp3
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Transcribed: 2025-10-25 06:45:09
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---
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This is Hacker Public Radio Episode 3857 for Tuesday the 16th of May 2023.
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Today's show is entitled, yesterday I saw a solar flare.
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It is hosted by Andrew Conway and is about 11 minutes long.
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It carries a clean flag.
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The summary is, in account of the first time, I saw a solar flare with my own eyes.
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Hello Hacker Public Radio people, this is Mick Nalu, also known as Andrew.
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And today I'm going to tell you about a solar flare that I saw yesterday.
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Now when I see I saw a solar flare, I mean I saw it with my own eyes.
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And that isn't usually an easy thing to do.
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I should also say that my background is, as many of you might know, is in astrophysics.
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And specifically I used to do research and write papers on solar physics and specifically
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energetic particles and their movement around magnetic fields during solar flares.
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So you might think that would mean I know quite a lot about solar flares, isn't it?
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I know something about it, it's been years since I've worked on it.
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But you know I've never seen a solar flare before, and in fact I don't think many people
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have.
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Certainly many of the solar physicists that worked on solar flares, they've looked at
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a lot of data from solar flares, but never seen a solar flare with their own eyes as
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I certainly had not done until yesterday.
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Now what happened was, it was a sunny day, sunny days aren't that common where I live
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in Glasgow in Scotland.
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But it's been sunny all week and quite cold and clear nights, great for a nighttime
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astronomy too.
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But I have this small solar telescope that belongs to the Astronomical Society of Glasgow.
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And I set it up and pointed it at the sun.
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And this is, I should stress, a telescope that is designed to be pointed at the sun.
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So don't go around doing this with any old telescope.
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You will blind yourself and maybe set fire to things.
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And it's got what's called an H alpha filter.
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So H alpha is a very specific wavelength of hydrogen, which corresponds to energy transition
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in the hydrogen atom.
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So it's quite a good one to look at, because I can tell you a fair amount about what's
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going on in particular parts of the sun, particularly at its surface, what we call the photosphere
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and the chromosphere, which is above it.
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Anyway, I don't want to get into jargon.
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So I was looking through this telescope and you see this, the sun is of course very bright,
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but with this filter in place, it's probably thicker than a welding glass type filter.
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You shouldn't use welding glass type filters to look at the sun, I'm not 100% sure
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why not.
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Anyway, this telescope was designed for the purpose, so it was fine to do that.
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And I was looking at the sun and I was at a massive sun spot, and you could put several
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earths inside the sun spot, pretty near the centre of the disk of the sun.
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And I was looking at that and then I noticed, oh it's another, quite prominent spot,
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not quite as big.
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And then I looked at this other spot and as I was looking at it, it was, well, when you
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look at the sun, and I'm not talking about an inverted image here, when you look at
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the sun, you generally talk about location in the sun in terms of self being at the bottom
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of the sun, because that point down towards the southern point of the horizon.
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So if you imagine being northern hemisphere, you're looking south at the sun, let's say
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at noon, then if you look at the sun, then south will be underneath the sun, north will
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be behind you, opposite direction to the sun, and west will be to the right and east to
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the left.
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So that's when I say north, east, south and west, when I look at the sun, I'm referring
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to that.
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So the big spot, as I said, was in the middle of the disk, but this other thing that I saw
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was at the north east corner of the sun, okay, corners, closer to the edge, not quite
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at the edge, but in the north east quadrant, if you like.
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And it looked like a spot at first, but then I noticed it had a bright strand like a line
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I went with that.
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Very unusual, I've never seen that before.
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And more I looked at it the more odd it seemed, and it seemed like the bright strand was
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getting brighter.
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And so I assumed what I was looking at was some kind of solar event, probably a solar
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flare that was visible at the H alpha wavelength, and you often get solar flares near sunspots.
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And the reason is, the common element is the magnetic field, it's all tangled up in
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these regions which cause sunspots, they also cause solar flares to happen there.
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But not often, most of the time you look at them, you don't see any solar flares.
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And I don't have never seen one in the H alpha before, not with my own eyes.
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Anyway, I wasn't sure at this point what I was looking at, and it just so happens
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I went and up next door to get my neighbour and came back, and when we looked at it, he
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saw it too, although it peered a little bit less bright.
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It was maybe, it was there, but less bright.
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And then we were chatting for a while, and I looked again, maybe about five minutes later,
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and it was gone, there was no bright patch, and there was no sunspots, I could see, there
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was just nothing at all, where this had been.
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So I thought, oh, maybe some cloud has passed in front of the sun or something, and has
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blotted it out, blurred it out, so I could see the rest of the sun quite fine, and I could
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see this big sunspot, and there was two other spots on the other side of the sun that
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were still there.
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So I thought, oh, maybe it's just that side, the sun's a cloud drifting past, but no,
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I waited, and that never returned, and I didn't see the bright patch, didn't see the
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why thought were sunspots.
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Now at this point, I picked up a phone to a friend of mine who was my mentor and friend
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laterally, and explained what I'd seen to him, and he said, oh yes, it does sound like
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a solar flare, but that darkening that you mistook for a sunspot, that's odd.
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So he pointed me to some sources of data, and I indeed was able to verify using the
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GOES satellite data, which looks at X-rays, and that data is used to classify flares, and
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it indicated that at first, the first thing I saw was an M1.7 flare, then I went next
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door to get my neighbour, and by the time I came back with him a few minutes later,
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a second flare had started up, the first one had finished, and the second flare had started
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up, and it was a smaller M1.1 flare.
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So these classifications, it's a bit like the decibels scale, so I don't know what,
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I can't remember what the letters stand for exactly, but it's, an M class flare is a
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big flare, an X class flare is 10 times larger in terms of its X-ray output, and that would
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be an enormous flare, they're very rare, but M class flares are big, but nothing to write
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home about, and the fact that it was an M1 flare, M1.7, the first one, that's all, it's
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on the smaller end of the scale, so M9 would be at the upper end of that scale, and the
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whole class, a factor of 10 below that, is called the C class flares, and they're pretty
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common.
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Anyway, so M class flares would be a small one, I was surprised to see the fact that I saw
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that in H-Alpha, I was quite surprised, because it wasn't a huge flare, it was a big
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one though, not very big.
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So I went off, and I then confirmed for myself that, yes, there had been flares at these
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times, and then I looked at magnetograms of the solar disk, which shows you where the
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magnetic field is at strongest, and I was able to see the region I was looking at, did
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indeed have two spots, and you can actually see them in what's called white light images,
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as unfiltered light images that you can get from various observatories around the world.
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I could see that there were some spots there, but they were really rather small, smaller
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than I could see with the telescope that I was using.
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So although the worst spots there, that wasn't what I saw, and I could see when the air
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was still, I could see there was something there through the telescope, but it just looked
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like an indistinct patch, I couldn't make out spots on spots.
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Later on, I was able to locate satellite data from the SDOAAIA instrument, and I think
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that's at a wavelength of 304 nanometers, I think that's if I'll correct myself in
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the show notes if I've misremembered that, and in that, I was able to put together a
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movie using a website called HelioViewer.org, and that movie clearly shows the events that
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took place at that time, although that wasn't in H alpha, it was now a wavelength that
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is related, I think it's to do with Helium, that one, so Helium's the second biggest
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constituent of a star, hydrogen is 75% of a star by mass, and 25%, well just under 25%
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is Helium, and then a small amount of lithium and a tiny amount of everything else.
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Anyway, so Helium is also a good thing to look at if you want to see what's going on.
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In conclusion, yes, I did see a solar flare, and I was able to verify it, and I don't
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know whether I'll ever see another one, but I'm going to try, now I know that it can
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be seen, I'm going to try and see another one, see if I can get lucky in, and the moment
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the sun's fairly active is plenty of spots, so anytime it's clear I'll try and set it
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up and have a look.
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Today I had a look, the big spot was still there, I could see, I did nice to take a photograph
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just by holding my phone to the telescope, which I didn't manage to do yesterday, but
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I filled her under the settings on my phone, and managed to get an okay photograph, so
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I'll stick that in the show notes, and the other treat that I got today was while I was
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looking at the sun, hoping for another flare, but I didn't get one, what I did get was
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a plane with its contrales go right over the disk of the sun, I couldn't believe it was
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like a black silhouette, in the last two meters, but it was really striking, and I looked
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up using this app called Flight Radar, and it wasn't just any old plane, it wasn't a passenger
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jet, it was a US Air Force C17A Globe Master, so there you go, solar flares and US Air
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Force planes, things that I didn't think I would see through my telescope. Have you
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ever seen a solar flare or a jet photobombing your astronomical image, if so let me know
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in the comments or even better, do an HPR show about it, thanks very much, bye bye.
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You have been listening to Hacker Public Radio at HackerPublicRadio.org, today's show
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was contributed by a HPR listener like yourself, if you ever thought of recording podcasts,
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and click on our contribute link to find out how easy it really is.
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Hosting for HPR has been kindly provided by an onsthost.com, the internet archive and
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rsings.net. On this advice status, today's show is released under Creative Commons,
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an attribution 4.0 International License.
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