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- From: mcirvin@husc8.harvard.edu (Matt McIrvin)
- Newsgroups: sci.physics
- Subject: Re: gravitons
- Message-ID: <mcirvin.727660223@husc.harvard.edu>
- Date: 21 Jan 93 23:50:23 GMT
- References: <C1550w.GG9@utdallas.edu> <mcirvin.727556509@husc.harvard.edu>
- Lines: 27
- Nntp-Posting-Host: husc8.harvard.edu
-
- mcirvin@husc8.harvard.edu (Matt McIrvin) writes:
-
- >nariani@utdallas.edu (Sushil Nariani) writes:
-
- >>If light cannot escape a blackhole, how can gravitons escape to pass on
- >>the message of blackhole gravity to the rest of the universe?
-
- >One answer is that the "virtual particles" that mediate forces
- >according to quantum field theory aren't bound by ordinary laws of
- >motion. They can therefore get out of black holes with no trouble
- >at all. How they do this without conveying information out of a
- >black hole is a complicated story.
-
- Contemplating this further, I think that this statement is a little
- misleading. I don't know what the graviton propagator really looks
- like (I haven't seen the expression recently), but if you work in
- Feynman gauge and examine the propagator of a *massless* spin-1
- boson like a photon, I think that in spacetime (rather than in
- momentum-energy space) it is confined to the light cone. If gravitons
- behave the same way, then the explanation for how they get out of the
- hole is the same as the classical explanation for how the field can
- persist: they're relics from the time before the hole formed. It's
- only *massive* particles that have tails to their propagators that
- lie outside the light cone-- for them the situation is as nontrivial
- as I suggested above.
- --
- Matt McIrvin
-
