MULT20015 Assignment 1 2021 FINAL
MULT20015 Assignment 1, © L. Hollenberg et al 2021 1
MULT20015 Elements of Quantum Computing
Assignment 1
Due: 5pm, 20th August 2021
Instructions: Work on your own, attempt all questions. Submit your completed written
work electronically as a pdf (no other formats accepted) to LMS, with name and student
number on the front, on or before the due date. Please show all working. Instructions on LMS
submission to follow.
Total marks = 20. Number of questions = 3.
1. [1 + [0.5+0.5+0.5+2.0] = 4.5 marks]
(a) Consider the following single-qubit operators in matrix form, corresponding to rotations by
angle 𝜃! about X, Y or Z axes:
𝑅”(𝜃!) = 𝑒#$/& ‘
cos ‘!
&
−𝑖 sin ‘!
&
−𝑖 sin ‘!
&
cos ‘!
&
0, 𝑅((𝜃!) = 𝑒#$/& ‘
cos ‘!
&
−sin ‘!
&
sin ‘!
&
cos ‘!
&
0,
𝑅)(𝜃!) = 𝑒#$/& ‘
cos ‘!
&
− 𝑖 sin ‘!
&
0
0 cos ‘!
&
+ 𝑖 sin ‘!
&
0.
Explain how these operators are related to the familiar Pauli matrices, X, Y and Z given in
lectures. (NB. For future reference, these expressions explicitly include a global phase of 𝜋/2)
(b) A particular single qubit state |𝜓⟩ = 𝑎*|0⟩ + 𝑎+|1⟩, is obtained by rotating about the x+z
axis from an initial state |0⟩ (zero global phase). The amplitudes are given by QUI as:
(i) Plot the amplitudes 𝑎* and 𝑎+ in the complex plane.
MULT20015 Assignment 1, © L. Hollenberg et al 2021 2
(ii) Convert the state to QUI polar notation form: |𝜓⟩ = |𝑎*|𝑒#'”|0; + |𝑎+|𝑒#’#|1⟩ with the basis
state phase angles 𝜃* and 𝜃+ in radians (expressed as multiples of 𝜋), and degrees.
(iii) Now convert to “Bloch sphere” form |𝜓⟩ = 𝑒#’$%&'(%