Visão Geral

Curso Quantum Physics and Maths for Quantum Computing. Computação Quântica é o uso de fenômenos da mecânica quântica, como superposição e emaranhamento, para realizar computação. É governado pelas leis fundamentais da mecânica quântica da física. Este curso de treinamento em Física Quântica e Matemática para Computação Quântica ensinará os fundamentos da Física Quântica necessários para entender a Computação Quântica.

Objetivo

Ao participar do Curso Quantum Physics and Maths for Quantum Computing, os participantes aprenderão:

• Matemática para Física Quântica
• Cartilha de Mecânica Quântica
• Superposição e emaranhamento de Qubits
• Portões e circuitos quânticos
• Pacotes Python para computação quântica
• Teletransporte Quântico

Publico Alvo

• Cientistas Quânticos
• Programadores de computação quântica
• Desenvolvedores de TI

Pre-Requisitos

• Python básico

Materiais

Conteúdo Programatico

Math Primer for Quantum Physics

1. Complex Number
2. Complex Vectors
3. Inner Product and Orthonormal Vectors
4. Vector Space and Basis Vectors
5. Tensor Product
6. Complex Matrices and Conjugate
7. Identity, Adjoint, Hermitian and Unitary Matrices
8. Eigenvectors and Eigenvalues
9. Matrices Exponentials
10. Probability

Quantum Physics Primer for Quantum Computing

1. Introduction to Quantum Mechanics
2. Brief History of the Origin of Quantum Mechanics
3. State Vectors
4. Dirac's Bra-Ket Notation
5. State Operators
6. Superposition of States
7. Measurement and Copenhagen Interpretation
8. Single Particle Spin States
9. Rotation Matrices
10. Bloch Sphere
11. State Dynamics Governed by Schrodinger's Equation
12. Wave Function
13. Heisenberg Uncertainty Principle
14. Bounded States and Engery Quantization
15. Two Particles System
16. Entanglement and Bell States
17. Bell's Theorem

Introduction to Quantum Computing

1. What is Quantum Computer
2. History of Quantum Computing
3. What is Qubit
4. Superposition of Single Qubit
5. Entanglement of Multiple Qubits
6. Measurement of Qubits
7. Applications of Quantum Computer
8. Quantum Decoherence
9. Commercial Quantum Computers
10. Quantum Supremacy

Quantum Gates and Circuits

1. Quantum Gates
2. Reversible and Irreversible Gates
3. Pauli Gates
4. Hadamard Gate
5. Controlled-NOT Gate
6. Toffoli Gates
7. Quantum Phases
8. Phase Change Gates
9. Quantum Circuits

Quantum Computing Simulation

1. Install QCircuits and Cirq Python Packages
2. Simulate Qubits, Quantum Gates and Circuits
3. Simulate Superposition and Entanglement

Quantum Computing Applications

1. Grover's Search Algorithm
2. Deutsch-Jozsa Algorithm
3. Quantum Teleportaiton
4. Superdense Coding