guenter Posted December 25, 2011 Posted December 25, 2011 Justin, you are right, as reportet here: "It would perhaps be the greatest achievement in the understanding of our Universe, that we at Planck would be able to measure the gravitational waves of the Universe, which are directly linked to the Big Bang and cosmic inflation (the extremely rapid expansion of the Universe in the very first moments)", ... I am not sure what you mean with "decay". Like electromagnetic waves gravitational waves too get redshiftet while the universe expands. DrRocket, the strongest signals are expected from the merger of massive objects, neutron stars, black holes. Unfortunately such events are rather seldom.
StringJunky Posted December 25, 2011 Posted December 25, 2011 (edited) I am not sure what you mean with "decay". Like electromagnetic waves gravitational waves too get redshiftet while the universe expands. Here's a wiki explaining it. Edited December 25, 2011 by StringJunky
guenter Posted December 26, 2011 Posted December 26, 2011 (edited) name='StringJunky' timestamp='1324853508' post='646948']Here's a wiki explaining it. Misunderstanding. Here Wiki explains 'orbit decay', Justin's question however was "do gravitational waves decay over time?" in the context of primordial black holes. There aren't even massive bodies whose orbit could decay. Edited December 26, 2011 by guenter
StringJunky Posted December 26, 2011 Posted December 26, 2011 Misunderstanding. Here Wiki explains 'orbit decay', Justin's question however was "do gravitational waves decay over time?" in the context of primordial black holes. There aren't even massive bodies whose orbit could decay. OK...my apologies. I was connecting with Dr Rocket's post about binary stars.
JustinW Posted December 26, 2011 Posted December 26, 2011 Sorry guenter, I was away for awhile. I didn't necessarily mean decay. I was wondering if the wave was somehow less effective over time. Therefore being less detectable.
guenter Posted December 28, 2011 Posted December 28, 2011 I didn't necessarily mean decay. I was wondering if the wave was somehow less effective over time. Therefore being less detectable. Justin, interestingly there are two possibilities. In both cases the scientists in this research are relatively optimistic: Primordial gravitational waves can in principle be detected as a signature in the microwave background (ongoing research of Planck) or as radiation reaching us today by interferometer techniques, e.g. LIGO ect. The microwave photons have been emitted 380000 years after the big bang (before the universe wasn't transparent for them), primordial gravitational waves however were created very shortly after the big bang (for them the universe is transparent), thus providing hopefully direct information about the early universe.
Recommended Posts
Create an account or sign in to comment
You need to be a member in order to leave a comment
Create an account
Sign up for a new account in our community. It's easy!
Register a new accountSign in
Already have an account? Sign in here.
Sign In Now