# Technical Document Extraction: Multi-Variable Temperature Dependence Analysis ## Subplot (a): Asymmetry vs Temperature - **Y-axis**: Asymmetry (0.00–0.20) - **X-axis**: Temperature (T, K) (0–100) - **Data Series**: - **A_T** (Red circles): - Values: 0.12–0.15 (increasing trend with T) - Error bars: ±0.01–0.02 - **A_L** (Blue circles): - Values: 0.07–0.08 (flat across T) - Error bars: ±0.005 ## Subplot (b): Relaxation Rate vs Temperature - **Y-axis**: Relaxation rate (μs⁻¹) (0–40) - **X-axis**: Temperature (T, K) (0–100) - **Data Series**: - **λ_T** (Red circles): - Values: 5–30 μs⁻¹ (exponential increase with T) - Error bars: ±1–3 μs⁻¹ - **λ_L** (Blue circles): - Values: 0.1–0.5 μs⁻¹ (constant across T) - Error bars: ±0.05 μs⁻¹ ## Subplot (c): Frequency vs Temperature - **Y-axis**: Frequency (MHz) (80–140) - **X-axis**: Temperature (T, K) (0–100) - **Data Series**: - **γ_μB_ave** (Purple line with markers): - Values: 120–60 MHz (linear decrease with T) - Error bars: ±2 MHz - **γ_μB_dif** (Green circles): - Values: 78–82 MHz (flat with minor fluctuations) - Error bars: ±1 MHz ## Subplot (d): Phase vs Temperature - **Y-axis**: Phase (degrees) (-80–60) - **X-axis**: Temperature (T, K) (0–100) - **Data Series**: - **φ_b** (Purple markers): - Values: 45°–20° (linear decrease with T) - Error bars: ±2° - **φ_c** (Green markers): - Values: -20°→-60°→-80° (nonlinear decrease with T) - Error bars: ±3° ## Cross-Referenced Legend Consistency - **Color Mapping**: - Red ↔ A_T, λ_T - Blue ↔ A_L, λ_L - Purple ↔ γ_μB_ave, φ_b - Green ↔ γ_μB_dif, φ_c - **Validation**: All legend labels match corresponding data series colors and trends across subplots. ## Key Observations 1. **Asymmetry**: A_T dominates over A_L, with weak temperature dependence. 2. **Relaxation Dynamics**: λ_T exhibits strong Arrhenius-like behavior, while λ_L remains thermally insensitive. 3. **Frequency Shift**: γ_μB_ave decreases linearly with T, contrasting with γ_μB_dif's stability. 4. **Phase Behavior**: φ_b shows monotonic cooling, whereas φ_c exhibits hysteresis-like behavior at higher T.