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3. What is the purpose of Einstein@Home?

Einstein@Home is a method to search for gravitational waves from very dense, rapidly-spinning stars, such as neutron or quark stars [11,12,13]. The frequency of the waves is typically twice the star's spin frequency, though other frequencies are also possible. Thus, if the star is spinning about its axis 100 times per second, we might expect gravitational waves to be emitted primarily at a frequency of 200 cycles per second (Hz).

As indicated in the overview, and for reasons further explained in the next chapter, we will refer to Einstein@Home's target sources as gravitational-wave pulsars, or just pulsars for short, though the possible sources it could detect are more varied. Examples of possible sources are shown in the figure below. Of course, Einstein@Home could also discover something completely unexpected!

Figure 3.1: Possible sources of gravitational-waves that could be found using Einstein@Home. For the waves to be detectable the stars in the above figure need to be either neutron or quark stars, or something new that goes beyond present theories. Credits: Mountain on a star, image by Jolien Creighton [14]; Wobbling star, image by M. Kramer [15]; Accreting star, image by Dana Berry/NASA [16]; Oscillating star, image from a simulation by Chad Hanna and Benjamin Owen [17]
Image CWSources3


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Next: 4. What are pulsars, Up: Einstein@Home S3 Analysis Summary Previous: 2. A brief overview
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Einstein@Home S3 Analysis Summary
Last Revised: 2005.09.11 16:22:17 UTC
Copyright © 2005 Bruce Allen for the LIGO Scientific Collaboration
Document version: 1.97