What is Paired Particles: Quantum Encryption Explained

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Discussion Overview

The discussion revolves around the concept of paired particles, particularly in the context of quantum encryption and entanglement. Participants explore the nature of entangled particles, how they are generated, and their implications in quantum mechanics.

Discussion Character

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

Main Points Raised

  • Ahmes inquires about the concept of paired particles and their relation to quantum encryption, referencing their understanding of wave interference with single photons.
  • Warren explains that entanglement occurs when two particles are "bounced off each other," resulting in complementary states, and highlights the non-locality of measurements affecting both particles.
  • Ahmes seeks clarification on what it means to "bounce two particles off each other" and questions the relationship between photons and the creation of electron-positron pairs, as well as the experimental methods for entanglement.
  • Warren reiterates that collisions can create entangled pairs but acknowledges there may be other methods.
  • Zz introduces the concept of spontaneous parametric down conversion as a common method for generating entangled photons, mentioning that other methods, such as breaking Cooper pairs in superconductors, can also produce entangled particles.

Areas of Agreement / Disagreement

Participants express varying levels of understanding and propose different methods for generating entangled particles, indicating that multiple competing views remain regarding the specifics of entanglement and its applications.

Contextual Notes

There are unresolved questions about the precise mechanisms of entanglement generation and the conditions under which different methods apply. The discussion reflects a range of assumptions about quantum mechanics and the nature of particle interactions.

Who May Find This Useful

High school students learning about quantum mechanics, individuals interested in quantum encryption, and those exploring the fundamentals of particle physics may find this discussion relevant.

Ahmes
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hello,
can anyone tell me what's the story about "paired particles" (e.g. paired photons)? I've heard about the "quantum encryption" technique, which uses a couple of photons who have some sort of link between them.
I am currently a high school student (learning physics), and in school we learned about the quantum aspect of wave interference - that the single photon turns randomly to one of the holes, but statistically, many photons act as we expect them to. I guess it has something to do with quantum encryprion.

help anyone?

thank...
Ahmes
 
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If you bounce two particles off each other, they become "entangled." Entanglement means that the two particles must be in complementary states. For example, if one of the particles is spin-up, the other must be spin-down to conserve angular momentum. The interesting part is that you can't really say whether a particle is spin-up or spin-down until you measure it. When that measurement occurs on one of the particles, the other one might be all the way across the galaxy! Somehow the other particle has to know about the measurement of the first, even if it is very far away. In quantum mechanics, both particles are part of a single system; a measurement on any part of that system affects the entire system all at once, causing the other particle to immediately assume it's correct, complementary state.

- Warren
 
Sorry for my ignorance

Thank you very much for the reply.
you said that this thing happens when you "bounce two particles off each other". what exactly does that mean? Does it have anything to do with a photon becoming an electron and a positron? In which sort of experiment can you "entangle" two particles?

thanks again.
 
If you collide two particles, you'll have an entangled pair. There may be other ways to prepare them, but I mostly have seen collisions.

- Warren
 
Actually, in most EPR-type experiment involving entangled photons so far have used the spontaneous parametric down conversion to generate those photons. You have one incoming photon that excite a system. The system then decays via a two-step process, generating two photons that together have the same polarization as the original incoming photon.

More description here:

http://arxiv.org/abs/quant-ph/0106113

There are certainly other ways to get entangled particle. A cooper pair in a superconductor is one candidate. If you break a pair apart without destroying its coherence, they will form an entangled pair.

Zz.
 

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