Category Archives: astronomy news

astronomy, astronomy news

Making Our Place in Space

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Going There… or sending our Ads

I saw in today’s news that one of Google’s founders is buying a seat into space. Nice.  I wish we could all do that, but I suppose the first bunch of civilian flights into low-Earth orbit will be reserved for those who can plunk down the money. There’s little chance I’ll get to go, even though I grew up as an Apollo-age kid thinking I’d be living on the Moon at some point in my life. It doesn’t look too likely because (for any number of reasons) no country has had the will to get us there and so the “tourist” flights that will take people up for short flights are subject to all the usual market forces. The part of me that’s a scientist understands the science reasons why we aren’t living on (or even personally exploring) the Moon. It still doesn’t make it easy to accept that the dream of going to space is reserved for the astronaut/cosmonaut corps or the well-connected.

The consolation prize, if it can be called that, is getting to send one’s name to space or blasting one’s ad for delicious and crunchy corn chips out to space, as is happening with a fan-created Doritos ad that will be beamed out to a star called 47 Ursae Majoris as part of a promotion with the University of Leicester in England. I like Doritos in moderation (as a matter of fact, I just ate one), but the thought of targeting an ad to a specific star seems a bit weird, even for me. It’s an outreach project, so it has the added advantage of bringing more attention to astronomy and physics at the same time it sells a few more corn chips to folks on. There’s no evidence yet that the folks on any possible planets orbiting the target star are clamoring for Doritos, but since they’re 42 light-years away, any wholesale orders for the chips won’t arrive at Earth for nearly a hundred years.

So, I wonder. Does Sergey Brin’s purchase of a space ride or Doritos’s ad campaign excite interest in space and astronomy?

astronomy news, astronomy research, Ulysses mission

Goodbye, Ulysses

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You Served Well

https://i0.wp.com/science.nasa.gov/headlines/y2008/images/northpole/Ulysses_spacecraft.jpg?resize=389%2C292Back when I was in graduate school (in the last century, and I can say that without feeling TOO old), I worked on a team that used data from the Ulysses spacecraft to study the effects of the solar wind on comet plasma tails. Ulysses has been following an orbit that took it over the poles of the Sun, allowing the spacecraft’s instruments to sample every “regime” of the solar wind.

Now, unless you study the Sun, you probably don’t think about this, but it doesn’t blow its wind evenly in all directions. The speed and density (think of it as “loadedness” because it carries particles along) are not the same at each latitude.  In the Sun’s “midsection” (its mid-latitudes) the wind is heavily loaded (it’s more dense) and blows at an average speed of 450 km/sec. (970,000 miles per hour).  At higher latitudes (the closer you get to the poles) the wind is much less dense and blows out at around 750 km/sec. (1.6 million miles per hour). And of course, there are locally gusty conditions where winds can temporarily go faster.

What we were trying to do was correlate the appearance of a comet’s plasma tail to what latitude of the solar wind it was experiencing. A plasma tail is very sensitive to the solar wind and responds almost instantly to any changes. So, what we found (with the help of the Ulysses spacecraft) was that at equatorial latitudes, the plasma tail of a comet experiencing this part of the solar wind has a distinctly disturbed appearance. It varies over time and actually experiences what we called “disconnection events” (where the plasma tail breaks off and floats away) as it experiences reversals of the magnetic field at those latitudes.

When the same comet travels through the polar latitudes, it encounters that steady, less-dense and faster solar wind. It has smaller variations in speed and density, no magnetic field reversals, and no disconnection events. A plasma tail looks pretty boring at the higher latitudes (by contrast to its often disrupted, kinky appearance at mid-latitudes).  What we found was that the comet, by acting as a “solar wind sock,” can be used to map the conditions in different latitudes of the solar wind. And Ulysses gave us exquisite readings of wind conditions from its vantage point in the solar wind — which then allowed us almost to “predict” what the comet would look like when it encountered those conditions. Or, to take it another way, we could look at a picture of a comet and just about tell you where it was in the solar wind and we used Ulysses data to back it up.

It was fascinating work, and Ulysses performed well for us — even though our project was just one small one out of many that took advantage of this spacecraft’s work. It’s been a good run for Ulysses, and the news today that it will be switched off on July 1 is sad, but inevitable. The spacecraft has held up four times longer than originally expected, but its onboard generators are starting to fail (along with some other issues). It will likely be taking data right up to the end, and I think that’s a fitting tribute for a well-run, high-productivity mission.