SPDC & Entanglement: Downconvert for 3 Particle Entanglement?

In summary, it is possible to downconvert an entangled photon and generate three entangled photons through cascaded SPDC crystals. However, this technique can result in photons at different energies, making experiments more difficult. Other sources can also produce three entangled photons, but may have limitations such as only being able to achieve polarization entanglement.
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entropy1
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Is it possible to downconvert an entangled photon and could that mean three particles get entangled and why not?

Thanks! :)
 
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entropy1 said:
Is it possible to downconvert an entangled photon and could that mean three particles get entangled and why not?

Thanks! :)

I have never heard of 3 photons directly coming out of down conversion. However, sometimes you can get 4 that are entangled. That is 2 sets of 2, which happens sometimes with PDC. Once you intercept 1, the other 3 are then entangled. This technique is used for GHZ tests.

https://arxiv.org/abs/quant-ph/9810035

On the other hand: you can get 3 entangled photons from other sources.

https://arxiv.org/abs/1510.05898
 
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Related to SPDC & Entanglement: Downconvert for 3 Particle Entanglement?

1. What is SPDC?

SPDC stands for spontaneous parametric down-conversion and it is a process in which a single photon is split into two photons with lower energy levels. This process is used to create entangled photon pairs.

2. What is entanglement?

Entanglement is a phenomenon in quantum mechanics where two or more particles become connected in such a way that the state of one particle is dependent on the state of the other particles, regardless of the distance between them.

3. How does SPDC create 3 particle entanglement?

In SPDC, a single photon is split into two entangled photons. These two photons are then used to create a second entangled pair through a process called parametric down-conversion. This results in three particles being entangled with each other.

4. What are the potential applications of SPDC and entanglement?

SPDC and entanglement have many potential applications in quantum information processing, such as quantum cryptography, quantum teleportation, and quantum computing. They also have potential uses in quantum sensing and metrology.

5. What are the challenges in using SPDC and entanglement for practical applications?

Some of the challenges in using SPDC and entanglement for practical applications include maintaining the entanglement over long distances, reducing noise and decoherence, and developing efficient methods for detecting and manipulating entangled particles.

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