Question

The LlGO experiment, which historically detected gravitational waves for the first time in September 2015, uses a pair of highly sensitive Michelson interferometers. These have arms that are 4.00 km long and use powerful Nd-Yag lasers with 1064 nm wavelength. The beams traverse the arms both ways 280 times before recombining, which effectively lengthens the am length to 1120 km. The devices are found so that the beans destructively interfere when they recombine if no gravitational wave is present.

The beam has a power of 100 kW, concentrated into an area of a square centimeter. Calculate the amplitude of the electric field in the beam.

LIGO can detect a gravitational wave that temporarily lengthens one arm by the minuscule amount of 10-18 ml When this happens, the beams combine with a phase difference of π+σ. Estimate the shift σ in radians. Note that the phase difference accumulates during both traversals of each round trip. 

\text { Use } E_{p}=2 E\left[\cos \frac{\phi}{2} \mid\right. \text { to estimate the senettity of the photodetactor in terma of the minimal electic fieid strength needad to detect a grevitational wave. }

Answer 1