Quantum Computing Approach
Explore the fascinating world of quantum computing to simulate classical physics phenomena with precision. Utilize quantum circuits and Qiskit for interactive visualizations and deeper insights into complex systems like superconductivity and magnetism. Engage with cutting-edge tools to enhance your understanding of both classical and quantum mechanics.
Quantum Computing Approach
Author: Sheng Yun Wu
Converted by: Wei Che Lo
Course Website https://sites.google.com/gms.ndhu.edu.tw/qca
Course Overview
The Quantum Computing Approach course introduces the application of quantum computing to simulate classical physics topics using qubits and quantum gates. It provides precise simulations of phenomena such as mechanics, thermodynamics, magnetism, and phase transitions.
Course Structure:
- Duration: One to two semesters (12–15 weeks)
- Prerequisites: Basic linear algebra, probability theory, and classical computing concepts
- Tools: IBM Qiskit, Python
Introduction
Quantum computing offers a revolutionary method for simulating and understanding classical physics topics by utilizing quantum mechanical principles like superposition, entanglement, and quantum interference. Classical physics often describes phenomena such as magnetism, thermodynamics, and phase transitions using deterministic models. Quantum computing, however, allows us to model these systems with unprecedented precision, capturing their quantum nature through qubits and quantum gates.
This approach allows quantum computers to simulate:
- Spin systems
- Wave-particle duality
- Quantum tunneling
- Quantum phase transitions
- Superconductivity
- Magnetism
Using frameworks like Qiskit, quantum computing provides tools for interactive simulations, enabling deeper insights into both classical and quantum phenomena.
Features
- Quantum Simulations: Use quantum circuits to simulate classical physics phenomena.
- Interactive Visualizations: Leverage Qiskit to visualize the evolution of quantum systems.
- Real-World Physics Applications: Explore complex systems like superconductivity and magnetism with quantum models.
Installation
To set up the project, follow these steps:
- Clone the repository:
git clone https://github.com/iamleoluo/Quantum-Computing-Approach.git - Install the required dependencies:
pip install -r requirements.txt
Usage
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Addition Note for Qiskit 1.0 feature changes
Qiskit 1.0 brings new stability guarantees and performance improvements, but it does break compatibility with all previous versions of Qiskit. for more information please check out https://docs.quantum.ibm.com/migration-guides/qiskit-1.0-features
Contact
For more information, contact the Modern NanoMag Lab, founded by Professor Sheng Yun Wu:
Address:
Department of Physics, National Dong Hwa University
1-12, Sec 2, Da-Hsuen Rd., Shou-Feng, Hualien, 974 Taiwan
Phone: +886-3-8903732
Fax: +886-3-8900166
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