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RZXGate

class RZXGate(theta)

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Bases: qiskit.circuit.gate.Gate

A parametric 2-qubit ZXZ \otimes X interaction (rotation about ZX).

This gate is maximally entangling at θ=π/2\theta = \pi/2.

The cross-resonance gate (CR) for superconducting qubits implements a ZX interaction (however other terms are also present in an experiment).

Circuit Symbol:

     ┌─────────┐
q_0:0
Rzx(θ)
q_1:1
     └─────────┘

Matrix Representation:

RZX(θ) q0,q1=exp(iθ2XZ)=(cos(θ2)0isin(θ2)00cos(θ2)0isin(θ2)isin(θ2)0cos(θ2)00isin(θ2)0cos(θ2))\providecommand{\th}{\frac{\theta}{2}}\\\begin{split}R_{ZX}(\theta)\ q_0, q_1 = exp(-i \frac{\theta}{2} X{\otimes}Z) = \begin{pmatrix} \cos(\th) & 0 & -i\sin(\th) & 0 \\ 0 & \cos(\th) & 0 & i\sin(\th) \\ -i\sin(\th) & 0 & \cos(\th) & 0 \\ 0 & i\sin(\th) & 0 & \cos(\th) \end{pmatrix}\end{split}
Note

In Qiskit’s convention, higher qubit indices are more significant (little endian convention). In the above example we apply the gate on (q_0, q_1) which results in the XZX \otimes Z tensor order. Instead, if we apply it on (q_1, q_0), the matrix will be ZXZ \otimes X:

     ┌─────────┐
q_0:1
Rzx(θ)
q_1:0
     └─────────┘
RZX(θ) q1,q0=exp(iθ2ZX)=(cos(θ2)isin(θ2)00isin(θ2)cos(θ2)0000cos(θ2)isin(θ2)00isin(θ2)cos(θ2))\providecommand{\th}{\frac{\theta}{2}}\\\begin{split}R_{ZX}(\theta)\ q_1, q_0 = exp(-i \frac{\theta}{2} Z{\otimes}X) = \begin{pmatrix} \cos(\th) & -i\sin(\th) & 0 & 0 \\ -i\sin(\th) & \cos(\th) & 0 & 0 \\ 0 & 0 & \cos(\th) & i\sin(\th) \\ 0 & 0 & i\sin(\th) & \cos(\th) \end{pmatrix}\end{split}

This is a direct sum of RX rotations, so this gate is equivalent to a uniformly controlled (multiplexed) RX gate:

RZX(θ) q1,q0=(RX(θ)00RX(θ))\begin{split}R_{ZX}(\theta)\ q_1, q_0 = \begin{pmatrix} RX(\theta) & 0 \\ 0 & RX(-\theta) \end{pmatrix}\end{split}

Examples:

RZX(θ=0)=IR_{ZX}(\theta = 0) = I RZX(θ=2π)=IR_{ZX}(\theta = 2\pi) = -I RZX(θ=π)=iZXR_{ZX}(\theta = \pi) = -i Z \otimes X RZX(θ=π2)=12(10i0010ii0100i01)\begin{split}RZX(\theta = \frac{\pi}{2}) = \frac{1}{\sqrt{2}} \begin{pmatrix} 1 & 0 & -i & 0 \\ 0 & 1 & 0 & i \\ -i & 0 & 1 & 0 \\ 0 & i & 0 & 1 \end{pmatrix}\end{split}

Create new RZX gate.

Methods Defined Here

inverse

RZXGate.inverse()

Return inverse RZX gate (i.e. with the negative rotation angle).

Attributes

decompositions

Get the decompositions of the instruction from the SessionEquivalenceLibrary.

definition

Return definition in terms of other basic gates.

duration

Get the duration.

label

Return instruction label

Return type

str

params

return instruction params.

unit

Get the time unit of duration.

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