Notation

Symbol		Definition
${\mathcal {H}}\,\!$		Hilbert Space
${\mathbb {C} }\,\!$		The set of complex numbers
${\mathbb {R} }\,\!$		The set of real numbers
	Chapter 2 - Qubits and Collections of Qubits
$H\,\!$		The Hadamard gate (see Section 2.3.2, Section 5.4, Eq. 2.16, and Eq. 5.10)
$X\,\!$		The Pauli X matrix (see Table 2.1)
$Y\,\!$		The Pauli Y matrix (see Table 2.1)
$Z\,\!$		The Pauli Z matrix (see Table 2.1)
${\mathbb {I} }\,\!$		Identity operator
${\delta _{ij}}\,\!$		The Kronecker delta (see Equation C.17)
${\epsilon _{ijk}}\,\!$		Epsilon (see Equation C.8)
$\otimes \,\!$		The Tensor Product (see Section C.7)
	Chapter 3 - Physics of Quantum Information
$H\,\!$		The Hamiltonian (see Eqs. 3.1 - 3.4)
$\hbar \,\!$		H-bar (Planck's constant divided by $2\pi \,\!$ )
$U\,\!$		The Unitary Matrix (see Eqs. 3.5 - 3.6)
$\rho \,\!$		The Density Matrix or Density Operator (see Appendix E - Density Operator: Extensions)
${\mbox{Tr}}\,\!$		The trace of a matrix (see Section C.3.5)
$\det(N)\,\!$		The determinant of a matrix (see Section C.3.6)
${\vec {n}}\,\!$		A unit vector (see Section C.5.1)
$\lambda _{\pm }$		Eigenvalues (see Section C.6)
$\langle {\mathcal {O}}\rangle$		The expectation value of an operator (see Eqs. 3.47 - 3.48)
	Chapter 4 - Entanglement
$\lambda \,\!$		A possible hidden variable (see Eqs. 4.4 - 4.9)
$L\,\!$		Local operations (see Eq. 4.11)
$L\left\vert \Phi \right\rangle$		Local transformations (see Eq. 4.12)
$\left\vert \psi _{+}\right\rangle ,\left\vert \psi _{-}\right\rangle ,$
$\left\vert \phi _{+}\right\rangle ,\left\vert \phi _{-}\right\rangle$		Bell States (see Eq. 4.14)
${\mbox{Tr}}_{B}(\rho _{ss})\,\!$		The partial trace over one of the subsystems (particle states) of a composite system (see Eq. 4.19)
	Chapter 5 - Quantum Information
$\sigma _{i}^{2}\,\!$		The variance of an observable (see Eq. 5.4)
$H\,\!$		The Hadamard gate (see Section 2.3.2, Section 5.4, Eq. 2.16, and Eq. 5.10)
$\left\vert H\right\rangle \,\!$ , $\left\vert V\right\rangle \,\!$
$\left\vert D\right\rangle \,\!$ , $\left\vert -D\right\rangle \,\!$		Polarization states of photons (see Figure 5.1 and Table 5.1)
	Chapter 6 - Noise in Quantum Systems
$\rho ^{\prime }\,\!$ , $\rho \,\!$		Linear mapping vectors (see Eqs. 6.1 - 6.14)
$A\,\!$		The mapping matrix (see Eqs. 6.6 - 6.12)
$H_{S}\,\!$		The Hamiltonian for the system alone (see Eq. 6.15)
$H_{B}\,\!$		The Hamiltonian for the bath alone (see Eq. 6.15)
$S_{\gamma }\,\!$		Operator on the system (see Eq. 6.15)
$B_{\gamma }\,\!$		Operator on the bath (see Eq. 6.15)
$\rho _{S}(0)\,\!$		The initial density matrix of the (open) system (see Eq. 6.16)
$\rho _{B}(0)\,\!$		The initial density matrix of the bath (see Eq. 6.16)
	Chapter 7 - Quantum Error Correcting Codes
$A_{\alpha }\,\!$		Operator element
$P\,\!$		A projector onto the code space
$C(n,t)\;\!$		The binomial coefficient (see Eq. 7.17)
$m\;\!$		The number of code words (see Eq. 7.17)
${\mathcal {S}}\,\!$		The stabilizer
${\mathcal {S}}\subset {\mathcal {P}}_{n}\,\!$		An abelian subgroup of the Pauli group that does not contain $-\mathbb {I} ,\pm i\mathbb {I} \,\!$
${\mathcal {C}}({\mathcal {S}})\,\!$		A stabilizer code
$P_{1}\,\!$		Classical parity check matrix (see Eq. 7.21)
$G\,\!$		The generator matrix (see Eq. 7.22)
	Chapter 8 - Decoherence-Free/Noiseless Subsystems
$H_{S}\,\!$		Hamiltonian acting only on the system (see Eq. 8.1)
$H_{B}\,\!$		Hamiltonian acting only on the bath (see Eq. 8.1)
$H_{I}\,\!$		The interaction Hamilton (see Eqs. 8.1 and 8.2)
${\mathcal {A}}\,\!$		Denotes the "error algebra" generated by the set $\{H_{S},S_{\alpha }\}\,\!$
$S_{\alpha }\,\!$		Set of error operators acting only on the system (see Eq. 8.2)
$B_{\alpha }\,\!$		Acts only on the bath (see Eq. 8.2)
$U_{dns}\,\!$		A particular unitary transformation
$H_{cpe}\,\!$		Collective phase error Hamiltonian (see Eq. 8.3)
$Z^{(i)}\,\!$		A phase operator which acts on the $i\,\!$ th qubit (see Eq. 8.3)
$S_{x}\,\!$ , $S_{y}\,\!$ , $S_{z}\,\!$		The three collective errors (see Eq. 8.9)
$U_{dns}\,\!$		Unitary transformation corresponding to the collection of Wigner-Clebsch-Gordan coefficients
${\mathcal {C}}^{\perp }\,\!$		The orthogonal subspace (to the code) (see Eq. 8.17)
$\Psi \,\!$		An encoded state
$\{\Lambda _{i}\}\,\!$		Basis for the noise operators
$S\in {\mathcal {S}}\,\!$		The stabilizer element (see Eq. 8.18)
$C\,\!$		Casimir operator (see Eqs. 8.22 - 8.24)
$\lambda _{\alpha }\,\!$		Elements of the Lie algebra (see Eqs. 8.22 - 8.26, Eq. D.21, Section D.7.1 and Sections D.8.1 - D.8.3)
$H\,\!$		The Hamiltonian
$\mu _{ijk}\,\!$		A complete set of Hermitian matrices in terms of which any Hermitian matrix can be expanded
$S_{i}\,\!$		Form a basis for the stabilizer of the system
$\sum _{i}g_{i}S_{i}\,\!$		An arbitrary linear combination of those stabilizer elements
$a_{ijk}\,\!$		A set of real numbers
$g_{i}\,\!$		Arbitrary coefficients
$X_{n}\,\!$ , $Y_{n}\,\!$ , $Z_{n}\,\!$		The Pauli x-operation, y-operation, and z-operation on the nth qubit (see Eq. 8.27)
${\bar {X}}\,\!$		A logical $X\,\!$ operation (see Eqs. 8.28 - 8.34)
${\bar {Z}}\,\!$		A logical $Z\,\!$ operation (see Eqs. 8.29 - 8.35)
${\bar {Y}}\,\!$		A logical $Y\,\!$ operation (see Section 8.5.2)
${\bar {ZZ}}\,\!$		A logical two-qubit entangling gate (see Eq. 8.30)
$H_{ex}^{i,j}\,\!$		The Heisenberg exchange interaction Hamiltonian between two qubits labelled $i\,\!$ and $j\,\!$ (see Eq. 8.31)
$E_{ij}\,\!$		An operator resulting from the exponential of the exchange operation between qubits $i\,\!$ and $j\,\!$ for a time $\pi /4\,\!$ (see Section 8.5.2 and Eq. 8.32 - 8.35)
	Chapter 9 - Dynamical Decoupling Controls
$H(t)\,\!$		A Hermitian matrix (see Eqs. 9.2 - 9.8)
$U(t)\,\!$		A unitary matrix (see Eqs. 9.3 - 9.6)
${\mathcal {T}}\,\!$		The time-ordered exponential (see Eqs. 9.5)
$T\,\!$		Some characteristic time scale (see Eqs. 9.8)
$N\,\!$		Number of different controls to be used
$U_{n}\,\!$		A given control
$H\,\!$		Free evolution given by Eq. 9.1
$H_{eff}\,\!$		The effective Hamiltonian (see Eq. 9.12 and Eqs. 9.14 - 9.18)

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