Does Gravity affect the frequency of an electromagnetic wave? If so, does it increases or decreases it?

Jaylyn Horne

Jaylyn Horne

Answered question

2022-10-23

Does Gravity affect the frequency of an electromagnetic wave? If so, does it increases or decreases it?

Answer & Explanation

Marlene Welch

Marlene Welch

Beginner2022-10-24Added 23 answers

If we describe a plane-wave (or a single photon) by its wave vector:
k μ = ( ω / c , k ) k^{\mu} = (\omega/c, \vec k)
what pops out is that the frequency is the time-like part of a 4-vector. We can look at energy and momentum:
p μ = k μ = ( E / c , p ) p^{\mu} = \hbar k^{\mu} = (E/c, \vec p)
to try to find a natural rest frame:
p μ p μ = 1 c 2 [ ( E ) 2 | | p | | 2 c 2 ] = 2 c 2 [ ω 2 ( c k ) 2 ] = 0 p^{\mu}p_{\mu} = \frac 1 {c^2}[(E)^2-||p||^2c^2] = \frac {\hbar^2} {c^2}[\omega^2 - (ck)^2] = 0
so that there is no rest frame.
Energy is a property of the observer's frame, not the wave. The wave just goes at c c , locally.

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