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The interstellar dust particles returned to Earth by the Stardust mission are the first such pristine dust particles ever collected in space, and scientists are eager to "get their hands" on them. We estimate that Stardust collected less than 100 interstellar dust particles. They are tiny-only about a micron (a millionth of a meter) in size! These miniscule particles are embedded in an aerogel ollector 1,000 square centimeters in size. Finding them will be like searching for a handful of ants on a football field while searching one 5 cm x 5 cm square at a time.
This is where you come in:
By asking for help from talented volunteers like you from all over the world, we can do this project in months instead of years. To find the tiny particles we are using an automated scanning microscope to automatically collect digital images of the entire Stardust interstellar collector. We call these "stacks" of images focus movies. All in all, there will be nearly a million of them. These are available to Stardust@home volunteers around the world. You can view them with the aid of a special Virtual Microscope (VM).
Together, you and thousands of other Stardust@home participants will find the first pristine interstellar dust particles ever brought to Earth!
The discoverer of an interstellar dust particle will appear as a co-author on scientific papers by the Stardust@home collaboration announcing the discovery of the particle. The discoverer will also have the privilege of naming the particle!
How to participate:
First, you will go through a short web-based tutorial. Then, you must pass a web-based test to qualify to register and participate. After passing the test and registering, you will be able to login to the VM. The VM will automatically connect to our server and download focus movies. The VM will work within your web browser, under your control.
The VM downloads and displays focus movies, so that you can do just what someone sitting at a real microscope would do: focus up and down in each movie to look for particle tracks. To use the VM you will need a relatively fast internet connection, and the latest version of just about any web browser. Find out more about system requirements for the VM on our Technical FAQ.
Some things to keep in mind while searching...
Click on the particle tracks if you find them, or click on "No Track" if you see none, or on "Bad Focus" if any part of the VM does not focus beneath the surface of the aerogel. If you see something else of possible interest that does not appear to be a flaw in the aerogel or a particle track, you should click on that as well.
Keep an open mind about what the particle tracks may look like. Tracks of real interstellar dust may look quite different from what we have used for the training and the test.
Each focus movie will be viewed by many different people. When a volunteer identifies the focus movie as either having or not having a particle track the movie will be given a score. The score the focus movie receives will be weighted by the score of the volunteer.
Volunteers will receive a score based on how well they identify calibration focus movies. While you are searching, you will be shown calibration focus movies at random. These are focus movies known to contain real tracks.
The best attitude for this project is this: Have Fun!
As with any research project, the outcome is uncertain. This is a new approach to doing research. We are in utterly new territory.
This is where you come in:
By asking for help from talented volunteers like you from all over the world, we can do this project in months instead of years. To find the tiny particles we are using an automated scanning microscope to automatically collect digital images of the entire Stardust interstellar collector. We call these "stacks" of images focus movies. All in all, there will be nearly a million of them. These are available to Stardust@home volunteers around the world. You can view them with the aid of a special Virtual Microscope (VM).
Together, you and thousands of other Stardust@home participants will find the first pristine interstellar dust particles ever brought to Earth!
The discoverer of an interstellar dust particle will appear as a co-author on scientific papers by the Stardust@home collaboration announcing the discovery of the particle. The discoverer will also have the privilege of naming the particle!
How to participate:
First, you will go through a short web-based tutorial. Then, you must pass a web-based test to qualify to register and participate. After passing the test and registering, you will be able to login to the VM. The VM will automatically connect to our server and download focus movies. The VM will work within your web browser, under your control.
The VM downloads and displays focus movies, so that you can do just what someone sitting at a real microscope would do: focus up and down in each movie to look for particle tracks. To use the VM you will need a relatively fast internet connection, and the latest version of just about any web browser. Find out more about system requirements for the VM on our Technical FAQ.
Some things to keep in mind while searching...
Click on the particle tracks if you find them, or click on "No Track" if you see none, or on "Bad Focus" if any part of the VM does not focus beneath the surface of the aerogel. If you see something else of possible interest that does not appear to be a flaw in the aerogel or a particle track, you should click on that as well.
Keep an open mind about what the particle tracks may look like. Tracks of real interstellar dust may look quite different from what we have used for the training and the test.
Each focus movie will be viewed by many different people. When a volunteer identifies the focus movie as either having or not having a particle track the movie will be given a score. The score the focus movie receives will be weighted by the score of the volunteer.
Volunteers will receive a score based on how well they identify calibration focus movies. While you are searching, you will be shown calibration focus movies at random. These are focus movies known to contain real tracks.
The best attitude for this project is this: Have Fun!
As with any research project, the outcome is uncertain. This is a new approach to doing research. We are in utterly new territory.
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