Talk:Qutrit
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Other gates
[edit]Basically nothing has been written about quantum gates for qutrits AFAIK, but some other gates are possible to deduce for qutrits..
Some CNOT analogs for qutrits:
- maps the target 0 → 1, 1 → 0, 2 → 2, if control is 2.
- maps the target 0 → 2, 1 → 1, 2 → 0, if control is 2.
- maps the target 0 → 0, 1 → 2, 2 → 1, if control is 2.
That flips the target qutrit in various ways only if the control qutrit is . Similar gates where the control has to be should also exist.
Any CNOT gate together with the rotation operators and the global phase shift gate should form a universal set of quantum gates for qutrits.
I thought about writing about this in the article. But maybe extrapolation is not good enough, without sources. Besides, it is maybe too much? · · · Omnissiahs hierophant (talk) 21:17, 14 December 2021 (UTC)
How many dimension of basis?
[edit]As the subject. 1.47.138.72 (talk) 03:02, 2 August 2024 (UTC)
- It says that the qutrit is a 3-dimensional complex Hilbert space in the article. This means that the quantum state vector of the qutrit (i.e. the value stored in the qutrit) is a vector in three complex dimensions, . Because a complex number can be written as two real numbers (a+bi) where a and b are real and i is the imaginary unit, this three-dimensional complex coordinate space is like a 6-dimensional real space However, the math becomes a lot less cluttery if we use complex numbers instead. Does it need to be clarified in the article that the qutrit is a vector in three complex dimensions? · · · Omnissiahs hierophant (talk) 10:44, 14 September 2024 (UTC)