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back to article Why does our galaxy spiral?

A group of astrophysicists from the Harvard-Smithsonian Center for Astrophysics and the University of Wisconsin-Madison say they've resolved a long-standing question: how long do spiral arms in galaxies like our own last? The boffins aren't just thinking about our very own Milky Way: the paper, published in The Astrophysical …

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Coffee/keyboard

I think I hear a clock

I can remember when a 100x100 particle matrix motion program ran for 39 hours....and now they can simulate entire galaxies...

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Thumb Up

Re: I think I hear a clock

Black and white fractal generator took hours to run on C64, let alone a colour one. When CSS was first cracked, it took 36 hours to rip and encode a DVD to divx.

And now my phone does realtime HD h264 encoding. Kids these days, etc...

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Brilliant...

When I was kid I depended on a kaleidoscope to see stuff like this

To see anything remotely interactive I'd head off to the planetarium, which has now been almost killed off by Google Sky and other similar applications, like Starwalk for tablets.

It's awesome to watch rendering sequences like this, it shows that technology brings science to the masses via mediums like YouTube.. and let's not overlook the programming that went into the production

And to think my kids believe I spend all my "Internet time" on YouTube time watching cheesy 80's musics videos...

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Re: Brilliant...

"And to think my kids believe I spend all my "Internet time" on YouTube time watching cheesy 80's musics videos..."

Nah, they are just humouring you - they know that you can't get porn on YouTube.

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Ye cannae change the laws of physics

Of course arms form, have they never seen a line of children holding hands forming the radius of a circle moving in a circle? The outermost stars would have to move faster than the speed of light to keep up with the inner stars and prevent arms forming.

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Re: Ye cannae change the laws of physics

Galaxies don't have to form arms. There's plenty of galaxies out there that are just featureless blobs.

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Re: Ye cannae change the laws of physics

More at the Galaxy Zoo

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Holmes

Re: Ye cannae change the laws of physics

This actually reminded me that I have This Olden Book From 1996 lying around. So long ago... when EDO RAM was fresh...

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Boffin

Just Stars?

While this is great, and I will admit right away I have not had time to read up on the full method, there are more things than stars in galaxies were these included in the simulation.

Also they put up information about transparency and changing it on the particles the further from the centre they moved. This seems to me a bit like cheating. To be honest, if they did not vary the transparency it looks to me like it would still be a disc rather than a spiral.

Is this due to the time frame this occurred over and then extrapolating the data? Please someone in the know put me out of my misery. Okay I actually have to work and don't have time to read up on it, but I will look later.

Icon for the hopefully technical answer.

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Re: Just Stars?

The transparency was explained in the vid: "The variable transparency allows for the spiral structure to be easily observed." Or in other words, if they didn't make the inner particles (stars) more transparent than the outer ones the middle would be just one big white mess and no structure would be visible.

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Why am I playing Summly?

> there are more things than stars in galaxies were these included in the simulation

From the paper:

The galaxies in our study consist of dark matter halos and rotationally supported disks of stars. The parameters describing each component are independent and the models are constructed in a manner similar to the approach described in previous works (Hernquist 1993; Springel 2000; Springel et al. 2005).

2.2. Dark Halo

We model the dark matter mass distribution with a Hernquist (1990) profile:

rho_dm = M_dm/ (2*Pi) * a / (r * (r + a)³)

which has a cumulative mass distribution M (< r) = M_dm * r² / (r + a)² , where a is the radial scale length and M_dm is the total halo mass here set to 9.5 * 10¹¹ M_solar.

In the past, models of disk galaxies run in isolation and used to study the properties of spiral arms employed only a few million particles to sample both the stellar disk and the dark matter halo. In such experiments, randomly-placed particles produce fluctuations in the halo potential. Even if the disk is initially featureless, the Poisson noise owing to such discretization of the mass in N-body experiments is inevitably swing amplified, producing trailing multi-armed spiral patterns in the disk (Toomre 1977; Fujii et al. 2011; Sellwood 2012).

In order to suppress the development of artificial features in all the N-body experiments that follow, we set up a live disk of stars embedded in a rigid dark matter potential. We employ simulations with a sufficiently large number of particles in the disk, i.e. 100 million, so that the disks are essentially featureless when evolved without any perturbers acting on them. These simulations serve as “controls,” making it possible to identify the response of the disk to imposed perturbations. In this manner, we will be able to separate the sources responsible for exciting features in the disk from the stars which react to the perturbations, unlike previous experiments in which the stars themselves acted as perturbers, complicating the interpretation of the experiments, as emphasized by Toomre (1990).

Looking forward to gas + full stellar evolution simulations for added beauty.

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Re: Why am I playing Summly?

Thanks guys, nice summaries. If I get a chance I will read the paper up-voted you both ;)

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Boffin

Waste of time and money

Water going down a plughole = Stars around a black hole. Ta-da!

I'm still waiting for my Nobel.

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Paris Hilton

Re: Waste of time and money

You must have been one of those differently abled kids with special needs?

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Ru
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Pint

Re: Waste of time and money

No, No listen. Just imagine that you’ve got this ebony bath, right? And it’s conical. So what you do, you fill it with fine white sand right? Or sugar, or anything like that. And when it’s full, you pull the plug out and it all just twirls down out of the plug hole.

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Happy

Re: Waste of time and money

It's actually a simulation of the Flying Spaghetti Monster using a blender in his noodly appendages while yelling 'Will it blend?' at a nearby galaxy.

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Re: Waste of time and money

+1 for the Hitch Hiker reference, which the down voter obviously failed to get.

Now I'm of to find a really strong cup of tea

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WTF?

Re: Waste of time and money

Anyone who has read the Captain Future episode "Quest Beyond the Stars" KNOWS that there isn't a BLACK HOLE but actually a WHITE HOLE at the center of the galaxy.

No, it's not a good read.

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Boffin

Interesting simulation

When I did astronomy at the Kapteyn Institute (in the 1980s), a similar theory floated about, which suggested the spiral arms are essentially a compression wave running through the gas and dust, triggering star formation in spiral patterns, and the hot, short-lived stars lit up the surrounding gas with their UV radiation. Shortly after the wave passed, the bright stars burnt up, and the amount of light decreased, without the total mass density changing much. The theory behind this simulation runs along a similar pattern, although in the 1980s simulating anything this big was impossible, of course.

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Re: Interesting simulation

From the paper:

A long-standing controversy over the nature of spiral arms is whether they correspond to density enhancements in the background stellar distribution (density waves), or are made up of stars that always remain in the arm and are just more concentrated than the stars outside the arm (material arms). In the early studies, the arms were assumed to be density waves, because if they were material they would quickly wind up as the galaxy rotates. Thus, both the swing amplification and the static density wave theories argue that the arms are overdense regions of the disk moving around at a different speed relative to the stars themselves. Stars thus continuously move in and out of the spiral arms. However, recent investigations using numerical simulations of stellar disks have challenged this claim and and argue that the arms might be material structures (Grand et al. 2012). To investigate this in the context of our simulations, we identify a patch of stars along the arm in the stellar disk after the arms are fully developed (after 100 Myrs) as displayed in top panels of Fig. 6, where the patch is colored in black. Then, we follow the positions of the stars originally in the patch forward in time and display the outcome after two galactic years (bottom panels). We note that the stars initially in the patch spread out, confirming that the spiral patterns in our simulations are density waves and not material structures. This is shown in polar coordinates in the bottom panel of Fig. 6 where it is clear that the patch is being sheared out by differential rotation and the pitch angle of the patch differs significantly from that of the spiral features.

Looking forward to Matt Bryant complaining how Suns are shit.

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Re: Interesting simulation

I have seen spiral arms develop in simulations of collisions of galaxies run by a colleague at the astronomy department, where they appear to be material structures. I must have a look at the paper later.

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Anonymous Coward

Cue Creationists...

It's only an animation, of a theory!

God did it.

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Trollface

Mad Downvoters are on the loose again, I see.

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Coat

re: Mad Downvoters

Sorry, I just couldn't resist. :-)

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Angel

Re: re: Mad Downvoters

I know. Have an upvote.

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Pint

The only flaw I can see in any grand cosmological theories is that we can only observe stuff "out there" from a relatively fixed perspective in this section of our galaxy. My brain melts when I attempt to imagine a spherical or tubular version of this process.

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Coat

Why does it spiral?

I'm betting it's beer.

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FAIL

All of this is just pure fantasy. It's not science!

It would be a correct simulation if and only if at the very least 30% to 50% of the whole galaxy was known down to a single atom. If and only if all unknown forces other than the known ones here on Earth were known.

Creating any simulation based on assumptions that rely on practically no data, because what is officially known about just our galaxy is a 0.000000...[0s]....0001% or less ... it's a childish fantasy. It's just wrong data.

It's just like creating any simulation in any videogame and that's it. Nothing more than that.

It's not the truth. It's not even a bad approximation of reality.

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Yes, but it is beautiful,

although it depends on the music.

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Re: All of this is just pure fantasy. It's not science!

Where did you come up with those numbers? Off the back of a Cornflakes packet?

Do you need to simulate every atom in a snooker ball to come up with a good mathematical model of how it bounces off a cushion? No. Do you need to simulate every atom in a galaxy to have a decent idea of how discrete clumps of 10^30kg matter (stars) behave in aggregation? No.

What you do need is a lot of simulated stars, a few clouds and a lot of computing power. They only put in the laws of physics, and visualisation techniques, and – presto – out pops spiral structures.

Kudos to them.

Back in the day when I studied astronomy at uni, it was widely believed that spiral arms were density waves, and could only really be understood as being examples of emergent behaviour. An n-body gravitational problem is a tough nut to crack when n is 10^11. So it's nice to see computing power making such simulations possible.

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Facepalm

Re: All of this is just pure fantasy. It's not science!

> It's just like creating any simulation in any videogame and that's it. Nothing more than that.

Implying the potemkin village of a videogame does any "simulation".

You are right insofar as numerical cutoffs (gotta stop subdividing time and space at some point) and the floating-point rounding and logarithmic scaling will influence the computation. These influences must be quantified and reasons must be given why such effects do not unduly affect the overall results. But in the end it's just an experiment in statistics, like weather pattern computation. You don't care about any exact results at all, just an representative result of an ensemble.

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Anonymous Coward

Re: All of this is just pure fantasy. It's not science!

> Where did you come up with those numbers? Off the back of a Cornflakes packet?

Lewis won't let anyone else use the Cornflakes packet.

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Re: All of this is just pure fantasy. It's not science!

Joerg is correct to point out that "creating a simulation based upon assumptions" is a childish fantasy.

The underlying problem is the assumption that the laws of physics are immutable; laid down on stone tablets.

There is at least one much better explanation of the forces involved with the formation of the arms of a galaxy that has been out there for more than a decade; but it has not been reviewed because the new thinking challenges the assumptions laid down on those stone tablets.

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Alien

Re: All of this is just pure fantasy. It's not science!

If you speculate you better come up with some seriously reasonable shit having minimum assumption (i.e. "best compressible theory"). Otherwise I will cut your throat with Occam's razor.

> laws of physics not immutable

Not minimal.

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Coat

Why do galaxies spiral?

Coriolis effect. Simples.

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Re: Why do galaxies spiral?

In a sense. If the universe ITSELF rotates, then this will be apparent in the distribution of galactic rotation axis (no conclusive effect has been found AFAIK). I think it also means CLOSED TIMELIKE CURVES are possible, and one might have an UNIVERSE THAT CREATES ITSELF BY CURVING AROUND.

More on this in papers that are way over my paygrade.

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Anonymous Coward

Re: Why do galaxies spiral?

And if the universe ITSELF does not rotate, what then? Dark plate spinning?

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Alien

Re: Why do galaxies spiral?

Do I have to spell everything out for you first-graders?

The Gödel Metric

Following Gödel, we can interpret the dust particles as galaxies, so that the Gödel solution becomes a cosmological model of a rotating universe. Besides rotating, this model exhibits no Hubble expansion, so it is not a realistic model of the universe in which we live, but can be taken as illustrating an alternative universe which would in principle be allowed by general relativity (if one admits the legitimacy of a nonzero cosmological constant). A less well known solution of Gödel's exhibits both rotation and Hubble expansion, and has the other qualities of his first model, so Gödel's model is really killed by the inconvenient observations that the universe is not rotating. The quality of these observations improved continually up until his death, and he would always ask "is the universe rotating yet?" and be told "no, it isn't."

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Holmes

A logical explaination.

Ever see the pattern when shit hits the fan?

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