Presentation is loading. Please wait.

Presentation is loading. Please wait.

What are Gravity Waves?. According to Einstein's theory of gravity, an accelerating mass causes the fabric of space-time to ripple like a pond disturbed.

Similar presentations


Presentation on theme: "What are Gravity Waves?. According to Einstein's theory of gravity, an accelerating mass causes the fabric of space-time to ripple like a pond disturbed."— Presentation transcript:

1 What are Gravity Waves?

2 According to Einstein's theory of gravity, an accelerating mass causes the fabric of space-time to ripple like a pond disturbed by a rock. These ripples are Gravity Waves. This picture represents Gravity Waves produced by a pair of rotating neutron stars. This picture represents ripples in a pond disturbed by a rock. http://focus.aps.org/story/v8/st3 www.jointsolutions.co.uk/ docs/pages/leftnav.htm

3 Electromagnetic Waves Electromagnetic Waves oscillate perpendicular to their motion. They oscillate in the X and Y directions and the wave moves in the Z direction.

4 Gravity Waves Gravity waves have 2 polarizations like Electromagnetic Waves. The only difference is that Gravity Wave polarization lies in a horizontal-vertical “+” shape and 45 degrees to that in a “x” shape.

5 Gravity Waves would give us a new way to observe the universe. Like a new sense, they would bring a new dimension to astronomy. They would: Verify general relativity's prediction that gravity waves exist. Test that they travel at the speed of light. Test that the graviton has zero rest mass. Study black holes, and a binary black hole system. Allow us to study astronomical entities that we either know little about, or have yet to discover. Why are they important?

6 Gravitational Radiation, for example, occurs in a binary system with two massive objects circling one another. The large accelerations due to their gravitational attraction would release gravitational radiation. The noticeable affect of the expelled radiation is the loss of mechanical energy of the system, the two circling objects would draw closer to one another. Gravitational Radiation

7 This was proved in the 1970s when Russell Hulse and Joseph Taylor observed that the binary pulsar system, which consists of two super-massive stars in close proximity, radiates energy such that it’s period decreases 75 milliseconds every year. This proves the existence of Gravity Waves. binary pulsar

8 How do we detect Gravity Waves? The answer is:Very Carefully mmm, gravity!

9 A laser is split into two beams and aimed down either arm. The beams reflect off a mirror at the end, return to the middle, bounce back to the end, and back to the middle for a total of 50 times. This makes the distance the light travels longer, and increases the sensitivity of the detector. Laser Interferometer

10 Because Gravity Waves alternatively stretch and compress matter, if there is a phase difference between the electromagnetic waves of the laser then one arm has been stretched while the other has been compressed. Note that any stretch or squeeze would be insanely small, this is why we have yet to detect it. Laser Interferometer But if we do detect some change in length, then that means there are gravity waves!

11 Picture source: http://www.ligo-la.caltech.edu/Posters/poster18.htmlhttp://www.ligo-la.caltech.edu/Posters/poster18.html Locations of detectors LIGO: American VIRGO: French and Italian Government built laser interferometer near Pisa, Italy GEO: British and German interferometer near Hannover TAMA: Japanese interferometer in Tokyo AGIO: Australian interferometer

12 LIGO: Laser Interferometer Gravity-wave Observatory LIGO is a national research facility designed to detect gravity waves. LIGO consists of two laser interferometers, located far from one another to eliminate any local disturbances. The project is funded by the National Science Foundation through a cooperative agreement with the California Institute of Technology and the Massachusetts Institute of Technology. The State of Louisiana, through Louisiana State University, provided the land that one LIGO facility was built on. The other is located in Washington. LIGO’s interferometers are tuned to 100Hz, which is the frequency of rotating neutron stars.

13 LIGO: Livingston Observatory The antennae of the LIGO observatory extend over 4 kilometers (approximately 2.5 miles) in each direction from the central corner station.

14 LIGO: Laser Interferometer Gravitational Wave Observatory

15

16 LIGO: Hanford Observatory

17 AIGO: Australian International Gravitational Observatory First laser interferometer detector in the southern hemisphere.

18 LISA: Laser Interferometer Space Antenna This is much like the laser interferometers on earth, only in space. The arms could be 5 million kilometers long (1/30 AU). Possible launch date is around 2010. spaceplace.jpl.nasa.gov/ lisa_fact2.htm

19 New design Present laser interferometer detectors can only measure gravity waves at around 100Hz. A new detector has been proposed to measure other frequencies. It would consist of two approximately 4 meter concentric metallic spheres cooled to less than 4 degrees Kelvin and suspended 1 cm apart. The two would be 180 degrees out of phase, so when a Gravity Wave passed through them one would shrink while the other expanded. The change in the gap between them would then have to be measured (on the order of 10^-19 cm).

20 Web sources http://www.gravity.pd.uwa.edu.au http://www.ligo.org/ http://www.ligo-la.caltech.edu http://focus.aps.org/story/v8/st3 spaceplace.jpl.nasa.gov/ lisa_fact2.htm http://www.physicscentral.com/action/actio n-02-8.html

21 The End I hope you enjoyed it and are not asleep right now


Download ppt "What are Gravity Waves?. According to Einstein's theory of gravity, an accelerating mass causes the fabric of space-time to ripple like a pond disturbed."

Similar presentations


Ads by Google