Recap: Eddington s observation was the first (of very few) piece(s) of (new) evidence for GR

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Transcription:

Recap: Eddington s observation was the first (of very few) piece(s) of (new) evidence for GR 1 Recall: How do you define the second? Some physical process. The Earth s revolution around the Sun isn t as constant as you think. A pendulum is pretty good -- but how do you know the one in Paris and the one in Berlin are exactly the same? And can you really measure it to 10 or 20 digit accuracy? Atomic clocks: every atom of Cesium behaves exactly the same way, so use 2

How do you define the second? 3 How do you define the second? But gravity is the same as acceleration, which dilates space and time (recall Sue seeing Lou age while she accelerates), and NIST in Colorado, a mile above sea level feels slightly weaker gravity than Ottawa During the 1970s it was realized that gravitational time dilation caused the second produced by each atomic clock to differ depending on its altitude. A uniform second was produced by correcting the output of each atomic clock to mean sea level (the rotating geoid), lengthening the second by about 1 10-10. This correction was applied at the beginning of 1977 and formalized in 1980. In relativistic terms, the SI second is defined as the proper time on the rotating geoid.[21] 4

Gravity Waves There is energy stored in the stress of curved spacetime. (Remember gravitational potential energy?) But if an object shakes around on a sheet, won t ripples start propagating in the sheet? Einstein s equations predict exactly the same thing: waves of pure gravity. 5 Hulse & Taylor 1993 Nobel Prize (none to Eddington... and none to Einstein for GR!) But where are the waves??? 6

LIGO How to achieve a sensitivity of one part in 10 21 (ten billion times ten billion, times ten for good measure)?? Ten billion would be one millimetre out of the diameter of the Earth, or about one single atom out of one metre. 10 21 would be one single atom out of the distance to the Sun. 7 H Pol DC V Pol DC 407 nm Pump An interferometer 30 cm 8

LIGO 4 km The arms are empty vacuum - all that matters is the motion of the mirrors on the end. They are suspended like little pendulums, to be immune as much as possible from earthquakes, logging, trucks,... 9 Geodesics Question: what path does light follow on the surface of the earth? 10

Geodesics... what path will light follow around the Earth? If they d ordered a straight road, the light would have missed the mirror by nearly a metre! 11 What makes the mirrors move? Nothing. The mirrors don t move. Spacetime itself changes, so that the distance between the mirrors oscillates -- even while both mirrors sit perfectly still. 12

Cosmology Einstein could now write down the equation for the whole universe. Except, he found that it would necessarily suck itself together due to gravity and collapse. So, he found a place where his equations left some freedom, and added a number -- the cosmological constant -- to stop this. In 1929, Edwin Hubble discovered something: everything in the universe is moving away from us, and things which are twice as far away move twice as fast! Einstein: my greatest blunder. 13 Why are they all moving away from us? They re not remember dimensional analysis. If every distance I measure gets twice as big, what happens to my prediction for distances other people measure? Every one thinks he/she s at the centre, and it doesn t matter... 14

They re not. Just like LIGO s mirrors, every galaxy is sitting (mostly) still, and yet the distance just gets bigger and bigger underneath us. Q: Why, then, is the Sun no further away than it used to be? Why is there still not enough parking in New York City? 15 - Woody Allen, Strung Out (New Yorker, 2003) 16

CLOSED, SPHERICAL FLAT SADDLE-SHAPED 17 Except: dark energy It seems, so far as we can tell, that! (a) the universe is flat on the largest length scales! (b) instead of coasting or slowing down, it s!! accelerating outwards. Einstein s cosmological constant seems to exist after all-- but no one has any idea what exactly it is. Dark energy. There seems to be just enough of it to flatten out a universe that would otherwise be too light. Inflation? 18

Questions Over time, we see a distant galaxy getting further away from us. How can we tell whether they re moving or whether we are? When the size of the Universe has increased by 10%, how long will a meterstick be? When the size of the Universe has increased by 10%, what will the distance from the Earth to the Sun be? When the size of the Universe has increased by 10%, what will the distance from the Sun to α-centauri be? 19

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