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The magic of Quantum Entanglement! The goal of this project is to make both a Quantum Superposition and a Quantum Entanglement!

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Quantum Bell - The magic of Quantum Entanglement

The goal of this project is to make both a Quantum Superposition and a Quantum Entanglement!

It uses Q# and yeah, Quantum programming is not what you're thinking, it's really complex and we cannot do a web API with it... At least not by now! 💖

So, how can I run a Quantum program in my machine?

It's pretty simple! You have to have the .NET Core SDK for you platform, and maybe, VSCode can help, because it's the only editor to support Q# nowadays, but it's not mandatory! After getting this guys, you can clone the Microsoft's Quantum Development Kit sample, to make sure your machine supports Qubits' operations and that your .NET Core is ready to run Q#, you can simply run git clone https://github.com/Microsoft/Quantum.git, you can enter the Quantum/Samples/Teleportation folder, (with something like a cd Quantum/Samples/Teleportation),

  • TIP: If you open this project with the VSCode text editor, you'll be prompted to install the Q# extension, it's pretty amazing so I recommend it,

And them, simply run dotnet run to see the magic, if everything goes fine, you're done!

And to run this guy right here, you can just run git clone https://github.com/Horaddrim/quantum-bell, enter the folder -> cd quantum-bell, and run dotnet run! I think it will be more amazing if you see the source code in the Bell.qs file 😉

So what is happening? I just see a bunch of numbers with no sense at all!

Image of the code running

It was a simple example of two of my favorite concepts in quantum mechanics! The first one is the Quantum Superposition and the other one is Quantum Entanglement! Inside the file Bell.qs I'll explain the how to do this, but in concept, I'll make a qubit be either in the 0 and in the 1 state, and after that, I'll make two qubits entangled, so, whatever happen to one qubit happen to the other one! So, statically, in second 0 (0s in the image), and second 1 (1s), the results will ALWAYS BE 50/50 so, all the times there will be a qubit with state equals 1 and one with state 0, and this will happen all the time, but the agree result is just the check, to see if one of the qubits is equal to the another after I set one of them to a random state, the other one is been set too, so, if you ever get the agree output coming of different from 1000, for real, it's something wrong, because you've just break the quantum mechanics laws.

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The magic of Quantum Entanglement! The goal of this project is to make both a Quantum Superposition and a Quantum Entanglement!

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