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Just to clear @Mark'S there are two operational modes. In the first one, photons 1&2 also 3&4 are entangled. You make the calculations for Alice and Bob coincidence probability distribution of their measurement outcomes. In the second operational mode photons 2&3 also 1&4 are entangled.. You put the four photon state in the Bell state basis and you calculate the coincidence probability distribution of their measurements (Alice and Bob). I get a slightly different distribution. I could be wrong, I am not an expert, but retrace these computational steps, just for fun, see what you get. — Cristian Dumitrescu 15 mins ago
Just to be clear @MarkS there are two operational modes. In the first one, photons 1&2 also 3&4 are entangled. You make the calculations for Alice and Bob coincidence probability distribution of their measurement outcomes. In the second operational mode photons 2&3 also 1&4 are entangled. You put the four photon state in the Bell state basis and you calculate the coincidence probability distribution of their measurements (Alice and Bob). I get a slightly different distribution. I could be wrong, I am not an expert, but retrace these computational steps, just for fun, see what you get. — Cristian Dumitrescu 22 mins ago
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Hi. Thank you for your feedback. I am wondering, does that also apply if I am trying implement VQE using ansatz (this circuit) ? — Enrique Segura 21 mins ago
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This circuit is not enough for VQE ansatz because it can rotate only Z axis. It means, it cannot flip the bits. QAOA ansatz is prefer for VQE for Ising model. — gyu-don 15 mins ago
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4 hours later…
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Does the theory of computation need to be changed as a result of quantum computing? I mean like algorithmic complexity. — Numbers 5 mins ago
These quantum algorithms cannot be implemented on classical computers, right? Are there algorithms that are slow on a classical computer relative to other algorithms, but fast on a quantum computer relative to the same compared algorithms? — Numbers 6 mins ago
To obtain quantum speedup we need different algorithms, having no classical analogs. — kludg 7 mins ago
Does one need to understand quantum field theory to program in quantum computers? — Numbers 8 mins ago
So to take advantage of quantum computing’a speed up, we can’t simply translate classical algorithms to quantum language? We need to rethink how we create the algorithms? — Numbers 10 mins ago
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So just to be clear: if I wanted to simulate $e^{i Z_1 \otimes Z_2 }$ I would use the ansatz presented in the presentation and then the unitary for that Hamiltonian? — Enrique Segura 2 mins ago
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Hi @Numbers, welcome to QCSE. It's not clear what you mean by "would entanglement prove to be an issue with quantum computer programs?" Entanglement is a central issue in almost all applications of quantum mechanics to problems in computer science, such as games as you mentioned above. Can you consider focusing your question somehow? — Mark S 17 mins ago
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