Questions on Hawking Radiation

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Discussion Overview

The discussion revolves around Hawking Radiation, specifically focusing on the concepts of virtual particles and negative mass/energy. Participants explore theoretical aspects and implications related to these topics.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants describe virtual particles as pairs that briefly exist, with one potentially being absorbed by a black hole while the other escapes.
  • Others explain virtual particles in the context of quantum mechanics and the uncertainty principle, suggesting they arise from fluctuations in energy and time.
  • One participant mentions that negative mass and energy are linked to the behavior of particles in quantum electrodynamics (QED) and are associated with infinities that require renormalization.
  • Another viewpoint suggests that the concept of negative mass is part of a model to explain Hawking radiation, but acknowledges that there is disagreement about its implications.
  • Participants discuss the role of virtual particles in energy transfer and their instantaneous creation and destruction in fields, with photons and gravitons cited as examples.

Areas of Agreement / Disagreement

Participants express various interpretations of virtual particles and negative mass/energy, indicating that multiple competing views remain. The discussion does not reach a consensus on these concepts.

Contextual Notes

Some claims rely on interpretations of quantum mechanics and the uncertainty principle, which may involve assumptions that are not universally accepted. The discussion includes references to models that are not definitively established.

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I've been reading about Hawking Radiation, and some questions have come up.

1) What exactly is a virtual particle?
2) What is negative mass and energy?
 
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1)I think a virtual particle is one of a pair that pop into and then out of existence like that (*click*,*click*). If they pop up close enough to a black hole, one gets sucked in and the second pop doesn't happen, at which point one floats away. They always occur in opposite pairs ([electron, positron], etc..)
2)I'm not sure exactly.
Hope that helps!
 
gee, thanks

Thank you for the highly detailed explanation.:wink:
 
Detailed?

I don't know what I'm talking about! These are just my vague impressions and memories from some possibly questionable source. Man, if you thought that was detailed you should read the thead I started in the Logic forum (Godel etc.)! You'll notice I quit repling in that one early on, they just kept arguing over almost unrelated semantics! I ended up just thinking what I already thought before I asked. It might have been better placed in one of the physics forums, I couldn't decide.
EDIT: PS: It just occurred to me that you may have been being sarcastic, in which case I feel like the fool I am...
 
just finished feynman's QED.
1. virtual particles are particles that, as Jonathan said pop in and out of existence without you seing them. let's say you have one photon which is supposed to go from A to B. most of the times, meaning the greatest probability amplitude is that it goes straight from A to B. But that's not all, experiments counting photons going from A to B say. It can also go from A to B but passing through any C point in space, even though C is not on the direct path from A to B. These paths have a smaller probability, but they happen. Also on the road the photon may spontaneously break into an electron and a positron which later recombine to recreate the photon reaching B. It can also break into a moun-antimuon pair or other particle-antiparticle pair. These things can also happen, with an even smaller probability. If the distance from A to B is big it doesn't actually matter that the photon can go in other ways than straight from A to B. Only if you want to get all the decimals right. But if the distance from A to B is quite small, like a few wavelengths it does matter. When stuff becomes "quantum stuff" that's when it starts to matter.
2. negative mass is the same thing as negative energy, right? and both are something you may end up with by trying to determine the mass of a real particle from its QED behaviour (coupling constant). You usually get infinities. That's why they invented that thing called renormalisation.
 
a) a virtual particle is the result of taking the uncertainty principle (i.e. ΔEΔt >= h/4π) into account when considering the conservation of mass/energy, this means that pairs of virtual particles may appear and disappear as long as they stay within the uncertainty given by the HUP.

b) The idea of the black hole swallowing negative mass virtual particles is only one model to describe Hawking radiation, there's been some disagreement about the ins and outs of this. A real particle cannot have negative mass, so I don't you can say much beyond that it reperesnts a negative flux of energy which results in a loss of mass in a black hole.
 
Jonathan
"EDIT: PS: It just occurred to me that you may have been being sarcastic, in which case I feel like the fool I am..."

Ya, it was just sarcasm. :wink:

Thanks for the info guys, that made it all make more sense.
 
Of Virtual Particles and Negative Mass...

Hi,

Have u heard of the Uncertainty relation between Energy and Time... It says that the energy transfer and the time taken for the Energy transfer cannot be determined simultaneously. So if the Energy transfer is going to take place really fast then it is not possible to measure this energy. So We can infact break the law of Conservation of energy by actually "creating" a situation where the Energy transferred is so quick that u don't realize that "THE LAW" has been violated. This is the principle of Virtual Particles. These are particles that are generated from nowhere and serve as "messengers of the field". i.e They are assumed to be the source of transfer of energy in a field. The Virtual Partciles are created and are destroyed instantaneously transferring their energy to the nearby space where a new virtual particle evolves and this goes on...
A Photon is a classical example of a virtual Particle... another example might be the Graviton...
 

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