Planet Hunters

Planet Hunters is a citizen science project to find planets using human eyes. It does this by having users analyze data from the NASA Kepler Space Mission. It was launched by a team led by Debra Fischer at Yale University, as part of the Zooniverse project.

The Planet Hunters project exploits the fact that humans are better at recognising visual patterns than computers. The website displays an image of data collected by the NASA Kepler Space Mission and asks human users (referred to as "Citizen Scientists") to look at the data and see how the brightness of a star changes over time. This brightness data is represented as a graph and referred to as a star's light curve. Such curves are helpful in discovering extrasolar planets due to the brightness of a star decreasing when a planet passes in front of it, as seen from Earth. Periods of reduced brightness can thus provide evidence of planetary transits, but may also be caused by errors in recording, projection, or other phenomena.

Users are asked to sort the light curves based on the patterns. The patterns available are "quiet" and "variable". When the light curve is quiet, the graph mostly follows a straight path. When the light curve is variable, there are a number of things that it can do. It can be "regular", "pulsating", or "irregular". A regular light curve means it goes up once and down once, reaching an apex and descending. A pulsating light curve means it goes up and down along the y-axis on a rather steep basis. An irregular light curve has points that go up and down on the y-axis in an unpredictable pattern.

From time to time, the project will observe eclipsing binary stars. Essentially these are stars that orbit each other. Much as a planet can interrupt the brightness of a star, another star can too. There is a noticeable difference on the light curves. It will appear as a large transit (a large dip) and a smaller transit (a smaller dip).

Much as eight planets revolve around our sun, it is not unheard of for many planets to rotate around the same star. In a multiplanet system plot, there are many different patterns of transit. Due to the different sizes of planets, the transits dip down to different points.

Stellar flares are observed when there is an explosion on the surface of a star. This will cause the star's brightness to shoot up considerably, with a steep drop off.

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