Introduction to Quantum Computing
Introduction to Quantum Computing: From a Layperson to a Programmer in 30 Steps
1. Fundamental concepts are repeated when it is used
2. Background knowledge is introduced only when it is really needed
3. Numerical examples are used throughout the book and the calculations are explained clearly to avoid ambiguities
4. Real quantum computers (IBM-Q) are used
5. I try to use many analogies to help the readers understand
6. Step-by-step lengthy equation blocks
Simulation Augmented Machine Learning for Semiconductor Physics and Defect Discovery
Electrical Circuit and Qubit Interactions in Superconducting Qubit
L28: Trapped Ion Quantum Computer, Readout and 1 qubit and 2 qubit Gates
L27- Trapped Ion Quantum Computer, Paul Trap, Hyperfine Structure, Doppler Cooling
L26 (Ch23) Microwave Components in a Quantum Computer - Mixer, Isolator, Parametric Amplifier, IQ
L25-3 (Ch19 and Ch21) Transmon Qubit and Anharmonicity
L25-2 (Ch20) 1 qubit Gate for Charge Qubit at Sweet Spot
L25-1 (Ch18) Charge Qubit at Sweet Spot
L24-2 (Ch18) Solution of Cooper Pair Box Coupled to an External Voltage Source
L24-1 (Ch17) Quantization and Hamiltonian of Cooper Pair Box Coupled to an External Voltage Source
L23-2 Cooper Pair Box Coupled to an External Voltage Source
L23-1 (Ch17) Cooper Pair Box, Quantization Number Operator, Phase Operator, Charge Qubit
L22-3 (Ch24) Energy Participation Ratio and Class Project
L22-2 (Ch22) Dispersive Readout, Cross Kerr, I-Q Blob
L22-1 (Ch22) Cavity and Circuit QED, Jaynes-Cummings Hamiltonian, Raising and Lowering Operators
L21-2 (Ch22) Superconducting Qubit Dispersive Readout, Cavity QED, raising and lowering operators
L21-1 (Ch15) Quantization of LC Tank SHO
L20 (Ch16) Josephson Junction, Josephson Equations, Josephson Inductance, Josephson Energy
L19-2 (Ch16) Definition of a Superconductor
L19-1 (Ch14) Quantization of SHO Number, Annihilation, Creation Operator, Coherence State
L18-2 (Ch14) Quantization of Simple Harmonic Oscillator
L18-1 (Ch13) Hamiltonian Mechanics to Solve Simple Harmonic Oscillator
L17-2 (Ch13) Hamiltonian Mechanics
L17-1 (Ch13) Lagrangian Mechanics Solving Simple Harmonic Oscillator
L16-2 (Ch13) Lagrangian Mechanics and Lagrange's Equation
L16-1 (Ch12) Implementation of 2 Qubit Entanglement Gate in Silicon Spin Qubit
L15-3 (Ch12) Si Spin Qubit: 1 qubit Gate and Discussions
L15-2 (Ch11) Si Spin Qubit Readout, Spin to Charge Conversion
L15-1 (Ch11) Si Qubit Implementation and Initialization
L14-2 (Ch11) Calculation of Zeeman Splitting and Implementation of Silicon Qubit