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qiskit.visualization.plot_state_qsphere

plot_state_qsphere(state, figsize=None, ax=None, show_state_labels=True, show_state_phases=False, use_degrees=False, *, rho=None, filename=None) GitHub(opens in a new tab)

Plot the qsphere representation of a quantum state. Here, the size of the points is proportional to the probability of the corresponding term in the state and the color represents the phase.

Parameters

  • state (Statevector orDensityMatrix or ndarray) – an N-qubit quantum state.
  • figsize (tuple) – Figure size in inches.
  • ax (matplotlib.axes.Axes) – An optional Axes object to be used for the visualization output. If none is specified a new matplotlib Figure will be created and used. Additionally, if specified there will be no returned Figure since it is redundant.
  • show_state_labels (bool) – An optional boolean indicating whether to show labels for each basis state.
  • show_state_phases (bool) – An optional boolean indicating whether to show the phase for each basis state.
  • use_degrees (bool) – An optional boolean indicating whether to use radians or degrees for the phase values in the plot.

Returns

A matplotlib figure instance if the ax kwarg is not set

Return type

Figure

Raises

  • MissingOptionalLibraryError – Requires matplotlib.
  • VisualizationError – if input is not a valid N-qubit state.
  • QiskitError – Input statevector does not have valid dimensions.

Example

from qiskit import QuantumCircuit
from qiskit.quantum_info import Statevector
from qiskit.visualization import plot_state_qsphere
%matplotlib inline
 
qc = QuantumCircuit(2)
qc.h(0)
qc.cx(0, 1)
 
state = Statevector.from_instruction(qc)
plot_state_qsphere(state)
../_images/qiskit.visualization.plot_state_qsphere_0_0.png
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