So, after you’ve looked at 10, or maybe 1000 images, some of you may be wondering, “Just where did all this amazing data come from?”
Some Background: This project had its roots about 5 years ago, when the good folks who run the Hubble Space Telescope started wondering about the telescope’s legacy. Hubble is currently like a really great old car with a rebuilt engine — it does what it’s supposed to do really well, but you also wouldn’t be surprised if something went wrong. With this in mind, the question that arose was “If something were to happen to the Hubble, are there any important, lasting data sets that we wish we would have acquired?” And in particular, were there projects that were sooooo big that no one would have dared to ask for the needed time, in spite of being exactly the sort of lasting legacy that the telescope should leave behind?
In 2007, the Space Telescope Science Institute polled the community and asked for “white papers” describing possible big projects that Hubble should consider doing. Tons of great ideas flowed in, and based on that, it was decided that there would be a once in a lifetime call for “multi-cycle” proposals. The idea was to propose important projects that needed so much data that the observations couldn’t even be done in a single year (known as an observing “cycle”).
In other words, they wanted “awesome, but crazy”.
And we thought that mapping Andromeda fit that bill perfectly.
The Panchromatic Hubble Andromeda Treasury: While the Milky Way is a great place to study stars, it’s often a confusing place to work — you don’t know exactly how far away any given star is and there’s lots of dust to get in your way. Instead, if we look at Andromeda, we know all the stars are at nearly the same distance, and we have much less dust to block our view. The overall goal of the PHAT survey is therefore to map a huge fraction of the stars in the galaxy, and characterize them from ultraviolet (UV) to near-infrared (NIR) wavelengths. These stars, along with their ancestors and descendants (e.g., molecular clouds, HII regions, variable stars, X-ray binaries, supernova remnants, etc.), provide opportunities for enormous advances in the foundation on which all knowledge of the distant Universe is based. In other words, if you’re going to understand distant blobby galaxies, you’d better know all the details of the stuff that makes them up!
How the Survey Works: There are two keys to making the PHAT survey work. The first is to get lots and lots of Hubble time (Check!). The second is to find the single most efficient way to use that time, to get as many exposures at as many different wavelengths as possible. We do this by using two different cameras simultaneously. While one camera (Wide Field Camera 3: WFC3) is exposing, so is the Advanced Camera for Surveys (ACS), but pointing at a sightly different part of the sky. To map out large areas, we march the WFC3 camera around in a little 3×3 grid, while the ACS camera maps out an adjacent grid. Then, around six months later, we can rotate the telescope 180 degrees, and repeat the same exercise, but this time having WFC3 point to the area ACS covered previously, and vice versa.
Below, you can see a map of our current coverage, which shows a few regions where we only have the first half of the 3×6 “brick”. We should be getting the other halves of those bricks filled in during the coming months.
Why So Many Filters? Stars have a huge range in temperatures, from extremely cool (astronomically speaking) to ridiculously hot. Unfortunately, this leads to very large changes in where the stars emit their light. The hot stars can be booming in the UV, but faint in the NIR, whereas the cool stars are exactly the opposite. You therefore need a wide range of wavelengths to make sure you’re getting good detections of all kinds of stars. In addition, having a lot of filters allows us to do fancy things like solve for the exact amount of dust in front of a star, or to identify unusual objects like planetary nebulae. For cluster finding however, we only use the optical images (the two middle filters in the plot below) — these images are easy to make, and give plenty of information just on their own.
What’s Next? As you can see from the map above, we still have some more observations to take (some of which are scheduled to take place next week!!!). If all goes well, we hope to have the last of our data in hand by the start of next fall (2013). As we finish up new large chunks of the survey, we’ll add more images to the Andromeda Project. So keep practicing, cluster hunters!
We hope you are enjoying the Andromeda Project! If you find something spectacular or unexpected or have a question about the site or the science don’t keep it to yourself. We’d like the Andromeda Project community to chat and ask questions so we have provided a special discussion tool called Talk. It’s a lot like a forum but easier to find as you are given the option to chat about an object straight after you have classified it. Many of you are already making good use of Talk and it’s great to have your comments and feedback. This allows the team to fix glitches and answer your questions.
So where is Talk? When you have finished marking your image you will see the question “Would you like to discuss this image in Talk?” If you click “Yes” you will be taken to a page on Talk where you can say something about the image you just classified and also see what anyone else has said about it. You do need to be logged in, however, to post comments and make full use of Talk.
If you want to go into more detail you have the chance to start a discussion, or contribute to an existing one. You can even “watch” a discussion. Click on “watch discussion” and if anyone adds to the discussion you will receive an e-mail alert. Just make sure you have e-mail notifications enabled in your profile settings. When you’re done just click on “Return to Andromeda Project“ to resume classifying. Don’t feel you have to discuss every image but we’d really like to know about the ones you find interesting and unusual.
To help the scientists and the community keep track of what is being classified and discussed we’d like you to use hashtags (#) with a keyword to describe what you find, for example, #bright-cluster, #faint-cluster, #galaxies or #stars. In this way the community can create lists which can be searched.
You can also put objects you find into a collection. When you click “discuss this object” just click on “collect this” under the image and give your collection a name. You can see other people’s collections next to the images.
Hover your mouse over the menu at top right: “Home, Boards, Account” to see them expand. Clicking on “Home” shows you recent and featured discussions and trending keywords. You will also find a more detailed Talk tutorial in the Home menu. You can send messages to other community members using the link under “Account” and you can discuss things forum style on one of 3 Boards: Chat, Science and Help.
Chat: is where you can chat with the rest of the community. Virtual tea and coffee are always available!
Science: is a place to have general science discussions related to the Andromeda Project. The science team will look out for your questions.
Help: is your first point of call if you get stuck. This is where you can discuss the website and report any problems you’re having. The techies will keep an eye on this board.
You can also go directly to Talk from talk.andromedaproject.org
However you get there, come and Talk to us, we’re waiting!
We’re very excited you’ve taken the time to visit the new Andromeda Project site! With your help, we’re going to identify the largest sample of star clusters known in any spiral galaxy, including our own Milky Way. We will use the clusters you find to study the history of Andromeda and to better understand how stars form.
The beautiful images you will be looking at come from the Hubble Space Telescope. Since 2010, Hubble has spent nearly two months of time looking at Andromeda as part of the Panchromatic Hubble Andromeda Treasury (PHAT) survey. For the Andromeda Project, we’ve broken these pictures up into more than 9,000 separate images; there are more than 3 billion pixels that we need you to help us examine!
Star clusters are groups of hundreds to millions of stars that are all born together. This means that their ages are (relatively) easy to determine, and the first thing we do after you find the clusters will be to measure their ages and masses. Once their ages and masses are known, we can use these clusters to mark major formation epochs in the galaxies’ history. We will also identify the youngest star clusters which we can use to test theories of star formation.
In addition to star clusters, you’ll also be identifying background galaxies and image artifacts. We will use the galaxies to study the gas and dust within Andromeda; Galaxy Zoo veteran Bill Keel will have a blog post about this soon.
We’d like to thank our wonderful beta testers who helped make this site more usable. If you have any questions or comments take a look at the About and Guide sections, or create a post in the Talk section.
Good luck cluster hunters!
Anil Seth is an assistant professor at the University of Utah’s Physics & Astronomy department (http://www.physics.utah.edu/~aseth/)