Confining a photon to form a black hole

In summary, the minimum frequency for a photon to form a black hole is 1/(2Tp), with a wavelength of 2Lp and a mass equivalent of Mp/2. The Schwarzschild radius of the black hole photon would be GMp/c^2 = Lp and the diameter would be the wavelength of the photon, satisfying the necessary conditions for a stable standing wave.
  • #1
bernerami
1
0
How small a box can you confine a photon to before its mass is large enough to form a black hole?

I think you can make an estimate on the momentum (and therefore the energy) based on the size of the box using the Uncertainty Principle - knowing the energy gives you the mass via E=mc^2, but how do you figure out the mass and size needed to form the black hole?
 
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  • #2
That would be the Schwartzchild Radius, given by:

2Gm/c^2

Use E=hf and E=mc^2 to figure out the Schwartzchild radius for a photon of a given frequency.
 
  • #3
Hi Bernarami,

The minimum frequency that a photon must have so that energy of the photon confined within its own wavelength has sufficient energy density to form a black hole is 1/(2Tp) where Tp is the Planck time interval. The wavelength of such a photon would be 2Lp where Lp is the Planck length and the mass equivalent of the photon energy would be Mp/2 where Mp is the Planck mass. Using the equation for the Schwarzschild radius of a black hole (R=2GM/c&2) the radius of the black hole photon would be GMp/c^2 = Lp and diameter would be the wavelength of the photon which would satisfy the conditions required for a stable standing wave.

Ref: http://en.wikipedia.org/wiki/Planck_units
 
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1. How is it possible to confine a photon to form a black hole?

According to Einstein's theory of general relativity, any object with a sufficiently high mass and compact size can create a gravitational field strong enough to trap light. This means that if a photon, which has no mass but does have energy, is compressed and confined within a small enough space, it can create a black hole.

2. Can any photon be used to create a black hole?

No, not all photons have enough energy to form a black hole. The amount of energy required is proportional to the mass of the black hole, and for a photon to create a black hole, it would need an infinite amount of energy. Only photons with extremely high energies, such as those produced by gamma-ray bursts, could potentially form a black hole.

3. Is it possible to confine a photon without a large mass present?

Yes, it is possible to confine a photon without a large mass present by using a strong gravitational lens. This is a phenomenon in which the gravitational field of a massive object, such as a galaxy or cluster of galaxies, bends and magnifies the light from a distant source. In some cases, the gravitational lensing effect can be strong enough to confine a photon and create a temporary black hole.

4. How can we detect a black hole created by confining a photon?

Detecting a black hole created by confining a photon can be challenging because it would be very small and short-lived. However, scientists can look for signatures of the black hole's formation, such as gravitational waves or high-energy emissions, to confirm its existence. Additionally, simulations and theoretical models can help predict and identify potential instances of black hole formation via photon confinement.

5. Can confining a photon to form a black hole be harnessed for practical applications?

At this time, there are no known practical applications for confining a photon to form a black hole. However, the research and understanding of this phenomenon could provide valuable insights into the nature of gravity, the behavior of light, and the formation of black holes, which could potentially lead to future technological advancements and breakthroughs.

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