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Quantum Engineering Year 2: Advanced Quantum Science Month 33Day 914

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Year 2·Month 33·Week 3

Day 914: Single-Qubit Gates

Day 914 of 2,016~20 min read

Learning Objectives

•**Design microwave pulses** for hyperfine qubit transitions
•**Analyze two-photon Raman transitions** for fast single-qubit gates
•**Compare global vs local addressing** strategies and their trade-offs
•**Calculate light shifts** and compensation techniques
•**Optimize gate fidelity** against various error sources
•**Implement numerical simulations** of single-qubit gate dynamics

Today's Schedule (7 hours)

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On this page

1 Hyperfine Qubit Encoding Ground State Qubit Advantages of Hyperfine Encoding Clock States and Magnetic Field Sensitivity 2 Microwave Single-Qubit Gates Direct Microwave Coupling Gate Implementation Microwave Limitations 3 Two-Photon Raman Transitions Raman Coupling Mechanism Advantages of Raman Gates Raman Beam Configurations 4 Light Shifts and Compensation AC Stark Shift from Raman Beams Tweezer Light Shift 5 Addressing Strategies Global Addressing Local Addressing Hybrid Strategies 6 Gate Fidelity Optimization Error Sources Composite Pulse Sequences

Day 913Day 914 of 2,016Day 915