Quantum Computing Asked on December 19, 2020
An arbitrary single qubit gate can be decomposed as:
$$U=e^{i alpha} R_z(beta) R_y(gamma) R_z(delta)$$
We notice that in addition to the three rotations, there is a coefficient $e^{i alpha}$. What disturbs me is that this extra phase $e^{i alpha}$ shouldn’t really matter as it will only add a global phase in the computation. Thus, why is it usually written ? It it because we want to "mathematically" identify the expression of the unitary but in term of physics this phase will never be added in practice on a quantum computer ?
A reason why we need that $e^{i alpha}$ term:
It is right that the global phase $e^{i alpha}$ will not change the action of the gate, but let's consider these two gates:
$$ U1big(frac{pi}{2}big) = begin{pmatrix} 1 & 0 0 & i end{pmatrix} qquad R_zbig(frac{pi}{2}big) = begin{pmatrix} e^{-i frac{pi}{4}} & 0 0 & e^{i frac{pi}{4}} end{pmatrix}$$
It can be easily seen that $R_zbig(frac{pi}{2}big) = e^{-i frac{pi}{4}} U1big(frac{pi}{2}big)$. So both gates are differ by a global phase $e^{-i frac{pi}{4}}$ which means that they are equavalent when we apply them in the circuits. Nevertheless, as was discussed in this question [1] and in this this answer [2] the control version of this gates are not equivalent to each other:
$$ CU1big(frac{pi}{2}big) = begin{pmatrix} 1 & 0 &0 &0 0 & 1 &0 &0 0 & 0 &1 &0 0 & 0 &0 &i end{pmatrix} qquad CR_zbig(frac{pi}{2}big) = begin{pmatrix} 1 & 0 &0 &0 0 & 1 &0 &0 0 & 0 &e^{-i frac{pi}{4}} &0 0 & 0 &0 &e^{i frac{pi}{4}} end{pmatrix}$$
So if we are trying to construct a circuit by applying a control version of some unitary, the global phase of the unitary shouldn't be neglected. This scenario is not seldom. For example, in QPE (and thus in HHL) algorithm, we should be careful with the global phase in the unitary whose controlled versions are used in the algorithm.
Correct answer by Davit Khachatryan on December 19, 2020
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