Can Slow Glass or Optical Black Holes Be Used for Storing Photons?

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    Fidelity Teleportation
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Discussion Overview

The discussion revolves around the potential use of slow glass and optical black holes for storing photons, particularly in the context of quantum teleportation and the characteristics of entangled states. Participants explore the implications of these concepts for photon storage and energy potential, touching on theoretical and practical aspects.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant inquires about determining teleportation fidelity for a given density matrix of an entangled pair, seeking references for further reading.
  • Another participant suggests purifying mixed states before teleportation and notes the competing factors of efficiency and fidelity in the teleportation process.
  • A participant expresses skepticism about the feasibility of using photon teleportation to store photons in an endless loop for energy storage.
  • It is mentioned that the process referred to as "teleportation" does not actually store light but rather carries the quantum state, emphasizing the need for a medium that slows light for storage purposes.
  • A participant raises a hypothetical scenario involving a third party knowing the state to be teleported, questioning the practicality of this approach.
  • Another participant introduces the concepts of slow glass and optical black holes as alternative methods for storing photons and energy, providing links to further information.

Areas of Agreement / Disagreement

Participants express differing views on the feasibility of photon teleportation for storage, with some suggesting alternative methods like slow glass and optical black holes. The discussion remains unresolved regarding the effectiveness and practicality of these approaches.

Contextual Notes

Participants highlight limitations in the current understanding of photon storage and the complexities involved in quantum teleportation, including the definitions and assumptions surrounding these concepts.

Seckin Sefi
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In general teleportation protocol, an entagled pair is used as a source for teleporting an unknown quantum state and the fidelity, which depends on the source characteristics, is defined as the resemblance of final state to the teleportated state .
Suppose we have given a density matrix for an entangled pair of bits. If we intend to use this state as a source for teleportation, how can we explicitly determine teleportation fidelity for this state? Anyone knows an article for this ?
 
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Its been considered many times.

Note that there are various possibilities - you can try and purify the mixed state first and then teleport, for example. There are generally two competing factors - the efficiency (how often it works) and the fidelity (how close to the original state the output is).

Type teleportation "mixed states" into google and look for papers by Frank Verstraete amongst others...
 
Thank you, i will look.
 
It's to bad Photon Teleportation could not be used to store Photons in an endless loop for storing it's energy potential.

Or is it?:bugeye:
 
Actually in the process that is misleadingly called "teleportation" is just for carrying(?!) the quantum state so you don't "store light between to particle" (also process's speed is classicaly bounded).
You need something else to store light, for instance a medium which decreases the speed of light.
 
I have heard that one may assume the prepared state, i.e. the state to be teleported between Alice and Bob, is known to a third person, e.g., Charlie. This might be true if it was Charlie who prepared the state. He could then verify if teleportation was successful.

But I think there are some problems with that approach, such as, why doesn't Charlie just tell Bob what the state should be to begin with...
 
Intuitive said:
It's to bad Photon Teleportation could not be used to store Photons in an endless loop for storing it's energy potential.
Or is it?

Way off topic here, but there are two other interesting possibilities for storing photons/energy.

1. Slow Glass - a method of slowing photons down as they move through a material.
http://focus.aps.org/story/v17/st1

2. An optical black hole.
http://www.cerncourier.com/main/article/40/4/10
 

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