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Unmanned Spaceflight.com _ Pluto / KBO _ Pluto's Expanding Atmosphere Confounds Researchers

Posted by: bagelverse Apr 19 2011, 08:26 PM

Pluto's Expanding Atmosphere Confounds Researchers

http://news.sciencemag.org/sciencenow/2011/04/plutos-expanding-atmosphere-conf.html?ref=hp

Could these be evidence of geyers like on Triton?

Posted by: tasp Apr 19 2011, 11:53 PM

Interesting.

A tenuous atmosphere extending almost 1/4 of the way to Charon. There won't be any rings, but as Pluto taketh away, so to it gives a bonus. We've seen discussed here earlier the effectiveness of an atmosphere like this for decel purposes for a lander/orbiter mission. (Most likely a very long time from now)

Nice that newly sensed characteristics of Pluto make it more interesting (good for stimulating mission concepts) and easier to maneuver a probe in it's environs.


Just doing a little math here, traversing 5000 kilometers of this 'atmosphere' at a start speed of 20 km/sec and slowing (uniformly, the math to do this right is beyond me) to near zero would occur in ~500 seconds. This does not seem unduly severe. (having a probe with an approach speed to Pluto of 20 km/sec seems kinda high though, but let's be generous) In actuality, peak decel would occur at closest approach to Pluto, and the decel rate would increase to that point and then taper off to zero as ones craft exited the other side. There would seem to be quite a variety of orbits available with this technique. (other than closely orbiting Pluto)


How big is the Plutonian Hill sphere?

As for geysers, sounds good. How does anyone feel about volcanoes?

Posted by: Paolo Apr 20 2011, 05:12 AM

see also the paper http://arxiv.org/abs/1104.3014 on arXiv

Posted by: brellis Apr 20 2011, 10:41 AM

This is fascinating stuff! The Pluto system is starting to get a much more detailed look from us earthlings.

I recall reading an article -- geez, ten years ago, or more -- about the change in Pluto's atmosphere as it got closer to the sun, and how time was of the essence to get New Horizons launched in time to get good readings before things froze back.

Thinking about the energy and investment it takes to get a large, robust spacecraft with complex instruments launched toward the outer planets:

What's the smallest craft that would be worth putting in orbit around or landing on a solar system object?

Can we get good science from something the size of a blackberry?

Have we learned enough from the Cassini/Huygens mission to apply that experience towards "even smaller, even better, even cheaper"?

Could a future Mother Ship the size of New Horizons carry several micro-orbiter/landers that get jettisoned behind it as it approaches each target? hehe, talk about a Goose laying golden eggs! smile.gif

Posted by: machi Apr 20 2011, 12:39 PM

This idea is theoretically possible (you must "only" reduce masses in Ciolkovskyi equation, or use aerobraking), but now it's not feasible from technical point of view.

Posted by: Drkskywxlt Apr 20 2011, 01:32 PM

Pluto's atmosphere is (almost certainly) hydrodynamically escaping. Basically, the solar wind blows the atmosphere off the planet. So, that leads to a very large height for the exobase of the atmosphere (several Pluto radii potentially). That coupled with the seasonal cycle when the atmosphere is thicker anyway, and you get a very extended, low density atmosphere.

Posted by: Floyd Apr 20 2011, 11:30 PM

QUOTE (brellis @ Apr 20 2011, 05:41 AM) *
What's the smallest craft that would be worth putting in orbit around or landing on a solar system object?
Can we get good science from something the size of a blackberry?

My area is microbiology, but I will present my answer anyway. While the size of modern sensors can be very small, including cameras and scopes and maybe even thrusters & gyros for pointing, I see the major problem being energy for (and size of antenna) to communicate back to earth. Where does your iPad satellite get power--I'm not sure any blackberry has a battery that will sustain high data transmission rates for 10-20 years on a single charge. So, minimum size determined by power source (solar panels or nuclear/thermal) to power antenna/transmitter. If you had a big brother craft like Cassini nearby, then you could whisper your data to it rather than earth, but for your question, I think that would be cheating.

Posted by: Rob Pinnegar Apr 21 2011, 12:39 AM

QUOTE (Drkskywxlt @ Apr 20 2011, 06:32 AM) *
Pluto's atmosphere is (almost certainly) hydrodynamically escaping.


If gas escape is occurring, would the region of greatest gas escape tend to concentrate around the anti-Charon point?

With such a huge scale height to the atmosphere, centripetal acceleration (due to Pluto's motion around the system's barycentre) might be just enough to give gas molecules the heave-ho on the anti-Charon side.

Posted by: nprev Apr 21 2011, 12:45 AM

That sort of begs the question of whether Pluto had a much more extensive atmosphere in the past, unless the formation of Charon (and presumably Nix & Hydra) were relatively recent events in geological terms. Also makes me wonder what a reasonable rate of Plutonian outgassing over time might be.

Posted by: Greg Hullender Apr 21 2011, 04:40 AM

QUOTE (tasp @ Apr 19 2011, 04:53 PM) *
Just doing a little math here, . . .In actuality, peak decel would occur at closest approach to Pluto

That's not what I get. The way I figure it, peak deceleration can easily come earlier than closest approach. It's an interesting differential equatation, but it depends a lot on data about the actual composition of the plutonian atmosphere.

I do hope that NH is passing far enough from the atmosphere not to have to worry about it.

--Greg

Posted by: AndyG Apr 21 2011, 10:03 AM

QUOTE (Drkskywxlt @ Apr 20 2011, 02:32 PM) *
Pluto's atmosphere is (almost certainly) hydrodynamically escaping.

And therefore Charon, almost certainly, will have a ex-Plutonian transient atmosphere.

Fascinating!

This solar system just gets better and better. smile.gif

Andy

Posted by: Den Apr 21 2011, 10:08 AM

QUOTE (tasp @ Apr 20 2011, 12:53 AM) *
A tenuous atmosphere extending almost 1/4 of the way to Charon. There won't be any rings, but as Pluto taketh away, so to it gives a bonus. We've seen discussed here earlier the effectiveness of an atmosphere like this for decel purposes for a lander/orbiter mission. (Most likely a very long time from now)

Nice that newly sensed characteristics of Pluto make it more interesting (good for stimulating mission concepts) and easier to maneuver a probe in it's environs.

Just doing a little math here, traversing 5000 kilometers of this 'atmosphere' at a start speed of 20 km/sec and slowing (uniformly, the math to do this right is beyond me) to near zero would occur in ~500 seconds. This does not seem unduly severe.


Decelerating from 20 km/s to 0 in 500 seconds requires 4g deceleration. Pluto atmosphere can't do anything like that, it's too rarefied.

Posted by: Paolo Apr 21 2011, 10:18 AM

may someone with some time to spare and Pluto and Charon masses and distance at hand compute where the L1 lagrangian point would lie?
I was thinking: how much would the atmosphere of Pluto need to inflate before mass transfer to Charon begins? this is what happens on some classes of double stars including some kinds of supernovae

Posted by: AndyG Apr 21 2011, 11:30 AM

I get L1 for Pluto lying around 5050km from the centre of Charon, 14520km from the centre of Pluto. About 4/5ths of the way from Pluto to Charon.

Andy

Posted by: Drkskywxlt Apr 21 2011, 12:35 PM

QUOTE (AndyG @ Apr 21 2011, 06:03 AM) *
And therefore Charon, almost certainly, will have a ex-Plutonian transient atmosphere.


Perhaps. There's been at least one stellar occultation that allowed Bruno Sicardy and his team to place an upper limit on the atmosphere of either 110 or 15 nbar (depending on assumptions). http://www.nature.com/nature/journal/v439/n7072/full/nature04351.html

We'll probably have to wait for New Horizons since stellar occultations of Charon are so rare.

Posted by: Drkskywxlt Apr 21 2011, 12:47 PM

QUOTE (Rob Pinnegar @ Apr 20 2011, 08:39 PM) *
would the region of greatest gas escape tend to concentrate around the anti-Charon point?

Hmmm...not sure the answer to that. Charon is about 12 Pluto radii away. All of the literature that I've seen regarding models/simulations of hydrodynamic escape of Pluto's atmosphere have ignored contributions from Charon's gravity. Remember the r^2 law...even if gas is escaping at several Pluto radii above the surface, the gravitational influence from Pluto is still going to be dramatically larger than that of Charon.

QUOTE
With such a huge scale height to the atmosphere, centripetal acceleration (due to Pluto's motion around the system's barycentre) might be just enough to give gas molecules the heave-ho on the anti-Charon side.

Again I haven't seen any discussion of this in the literature. Pluto's rotation rate is quite slow so I don't think this would add appreciable energy. The energy that really drives this process is heating by solar EUV and UV. That's a much bigger energy source than centripetal acceleration.

Posted by: Paolo Apr 21 2011, 05:24 PM

QUOTE (AndyG @ Apr 21 2011, 01:30 PM) *
I get L1 for Pluto lying around 5050km from the centre of Charon, 14520km from the centre of Pluto.


Thank you for the quick computation. I am wondering whether a Roche lobe-like mass transfer between the atmosphere of Pluto and Charon is possible
http://en.wikipedia.org/wiki/Roche_lobe

Posted by: brellis Apr 21 2011, 10:41 PM

I'm confused. Does the L1 point of the Pluto system actually orbit Pluto along with Charon?

Posted by: nprev Apr 21 2011, 11:15 PM

Yes, it does; just like the Earth-Moon Lagrange points.

Posted by: Rob Pinnegar Apr 22 2011, 03:39 AM

QUOTE (Drkskywxlt @ Apr 21 2011, 05:47 AM) *
Again I haven't seen any discussion of this in the literature. Pluto's rotation rate is quite slow so I don't think this would add appreciable energy. The energy that really drives this process is heating by solar EUV and UV. That's a much bigger energy source than centripetal acceleration.


That's probably true. I just did a back-of-the-envelope calculation to that effect (literally... it actually *was* on the back of an envelope).

Pluto's orbital speed around the system barycentre turns out to be only about 23 metres per second (a bit slower than normal highway driving speed). The centripetal acceleration from that amounts to around 2-3 cm/s^2. This is quite a bit less than Pluto's surface gravity, which is about 66 cm/s^2.

Of course, at really high altitudes the gravity would be a bit lower. Also, I've based my centripetal-acceleration calculation on the distance from the system barycentre to Pluto's centre... so that effect would be a tiny bit larger as well at high altitudes. But either way, we're talking a difference of a few percent.

I don't know enough about this topic to say whether a difference of a few percent would translate into a measurable difference in gas escape.

Posted by: Greg Hullender Apr 22 2011, 04:57 AM

QUOTE (AndyG @ Apr 21 2011, 04:30 AM) *
I get L1 for Pluto lying around 5050km from the centre of Charon

I get 5210 km from Charon. Wonder where the discrepancy comes from?

--Greg

Posted by: Paolo Apr 22 2011, 05:19 AM

QUOTE (Greg Hullender @ Apr 22 2011, 06:57 AM) *
Wonder where the discrepancy comes from?


that's not really important. the point to me is that Pluto's swollen atmosphere fills a sizeable portion of its Roche lobe, making Mass transfer to Charon possible

Posted by: Alan Stern Apr 22 2011, 12:49 PM

QUOTE (Paolo @ Apr 22 2011, 06:19 AM) *
that's not really important. the point to me is that Pluto's swollen atmosphere fills a sizable portion of its Roche lobe, making Mass transfer to Charon possible


Paolo,

You might be interested to know that papers about mass transfer to Charon over Pluto's Roche lobe go back to the early 1980s, and this point was emphasized numerous times to review committees during the 90s era when a Pluto mission was being sold within the planetary mission advisory structure.

-Alan

Posted by: Paolo Apr 22 2011, 06:42 PM

thanks Alan. I know I will spend a large part of the weekend searching for papers on that on the ADS service wink.gif

Posted by: AndyG Apr 22 2011, 09:36 PM

QUOTE (Greg Hullender @ Apr 22 2011, 05:57 AM) *
I get 5210 km from Charon. Wonder where the discrepancy comes from?


The options seem to be:

1/ Listed masses for Charon and Pluto
2/ Excel
3/ My maths

I err towards 3/ in this instance - but whats a hundred miles between results? ;-)

http://mars.jpl.nasa.gov/msp98/orbiter/

Andy

Posted by: Greg Hullender Apr 29 2011, 02:57 AM

So Andy and I worked through this offline, and we now get the same result through different means, so I'm pretty confident this is correct.

The first step is to get the best numbers possible for the masses of Pluto and Charon and for the distance between them. It turns out there's some recent work using the orbits of Nix and Hydra to do exactly that: http://iopscience.iop.org/1538-3881/132/1/290/pdf/1538-3881_132_1_290.pdf

Pluto: 1.28726E+22 kg
Charon: 1.69741E+21 kg
center-to-center Distance: 1.9571E+07 m

My results are:

Charon-center to L1: 5.9716E+06 m
Charon-center to L2: 7.4611E+06 m

Andy's numbers differ from mine by just a few hundred meters now. In this case, his math and Excel were correct from the start; I was the one with the math error.

In case anyone's interested, here's how to compute it: let m be the mass of the smaller body divided by the mass of the larger one and let h be the distance from the center of the smaller body to the L1 point as a fraction of the distance from the smaller body to to larger one. Then

(1+m)*h^5 - (3+2*m)*h^4 + (3+m)*h^3 - m*h^2 + 2*m*h - m = 0

There are a variety of ways to find h given m. (I used Newton's method, but you can brute force it too.)

For L2, the only change is that the quartic and linear terms change sign, like so:

(1+m)*h^5 + (3+2*m)*h^4 + (3+m)*h^3 - m*h^2 - 2*m*h - m = 0

I hunted and hunted to find something that laid it out like this, but everything seemed focused on the harder problem of finding L4 and L5 and proving their stability.

--Greg

Posted by: AndyG May 1 2011, 07:01 PM

Never too keen on terms to the fifth power, and always keen to ditch "G" rolleyes.gif my route was:

Masses:
Pluto = Ma
Charon = Mb
Both = Mt

Distances:
Pluto - Charon = R
Pluto - Barycentre = Ra = R*Mb/Mt
Charon - Barycentre = Rb = R*Ma/Mt
Barycentre to L1 point = X

X needs solving in the L1 equation:

Mb/(Rb-X)^2 + Mt*X/R^3 - Ma/(Ra+X)^2 = 0

The three terms here are the force of Charon plus the centripetal force at L1, minus the force of Pluto. The easiest way to solve this (for me) was to parametrically define X and iterate towards "= 0" in Excel.

Andy




Posted by: Greg Hullender May 2 2011, 01:39 AM

Grin. Terms in the denominator are just as bad as 5th-order terms, depending on what you're trying to do. I was also surprised that eventually G dropped out. In fact, everything dropped out except the masses of the two bodies and the distance between them. Pretty cool.

I'm surprised there isn't more interest in UMSF about the mathematics of space travel. It was nice to find someone else who wants to compute these things for himself.

--Greg

Posted by: tasp May 3 2011, 07:05 PM

My thanks to the folks who can do the math. I am interested in the number crunching, I just don't have the ability. Heck, I effed accounting, and all that is addition and subtraction . . .

Posted by: algorimancer May 4 2011, 04:56 PM

It was studying the mathematics of space travel that led me to studying mathematics in college, then careers in teaching and programming and research. Haven't done much with orbital mechanics since high school (barring a bit writing software for nasa), but it was what set me on my way. Still doing plenty of math, though -- lately, mostly in statistics. Serendipity smile.gif

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