--- language: - en size_categories: - 50K **Description** > This dataset provides **100,000 synthetic rows** of data for analyzing **thermal stability** in photonic waveguides. It tracks key parameters, such as material properties, optical losses, and refractive index changes under varying thermal conditions. Ideal for simulation and optimization of photonic devices. ## Key Highlights ✨ - **Focus**: Thermal behavior of waveguides under varying environmental conditions. - **Columns**: 26 structured columns capturing material properties, geometric dimensions, and thermal-optical effects. - **Size**: 100,000 rows suitable for training machine learning models or validating designs. - **Use Cases**: - **Thermal stability analysis** for waveguides and photonic chips. - **Thermo-optic device optimization**. - **Simulation of thermal crosstalk** in integrated photonic systems. ## Dataset Structure 🏗️ Each row corresponds to a **single simulation or measurement configuration** for a waveguide, including: 1. **Material Properties** - `waveguide_material`: Core material (e.g., Silicon Nitride). - `cladding_material`: Cladding material (e.g., Silicon Dioxide). 2. **Waveguide Dimensions** - `waveguide_width` (µm): Width of the waveguide core. - `waveguide_height` (µm): Height of the waveguide core. 3. **Thermal Parameters** - `temperature_min` (°C): Minimum temperature. - `temperature_max` (°C): Maximum temperature. - `temperature_step` (°C): Increment for simulations. - `thermal_expansion_coefficient` (1/K): Expansion due to temperature. - `thermal_conductivity` (W/m·K): Heat transfer ability. 4. **Optical Performance** - `refractive_index_core` and `refractive_index_cladding`: Core and cladding indices at room temperature. - `propagation_loss_min` and `propagation_loss_max` (dB/cm): Losses at min and max temperatures. - `effective_index_min` and `effective_index_max`: Mode index at temperature limits. - `dn_dT` (1/°C): Change in effective index with temperature. - `thermal_tuning_efficiency` (%): Efficiency of thermal tuning. 5. **Environmental and Operational** - `thermal_stress` (MPa): Stress induced by temperature changes. - `strain_rate` (1/°C): Dimensional changes per degree. - `optical_power_input` (mW): Power at waveguide input. - `optical_power_output_min` and `optical_power_output_max` (mW): Output power at temperature limits. 6. **Simulation and Metadata** - `wavelength_min` and `wavelength_max` (nm): Operating wavelength range. - `simulation_model`: Method used (e.g., FEM, FDTD). - `measurement_uncertainty` (%): Error margin. --- ## Example Row ```text waveguide_material = Silicon Nitride (Si₃N₄) cladding_material = Silicon Dioxide (SiO₂) waveguide_width = 1.0 waveguide_height = 0.5 temperature_min = -20.0 temperature_max = 150.0 temperature_step = 5.0 thermal_expansion_coefficient = 2.8e-6 thermal_conductivity = 18.5 refractive_index_core = 1.980 refractive_index_cladding = 1.450 propagation_loss_min = 0.15 propagation_loss_max = 0.35 effective_index_min = 1.950 effective_index_max = 1.970 dn_dT = 0.0002 thermal_tuning_efficiency = 75.0 thermal_stress = 45.0 strain_rate = 3e-6 optical_power_input = 5.0 optical_power_output_min = 4.8 optical_power_output_max = 4.6 wavelength_min = 1260.0 wavelength_max = 1625.0 simulation_model = FDTD measurement_uncertainty = 1.5 ``` ## Citation & Acknowledgments 🙌 If you use this dataset in your research or applications, please cite it as follows: ```bibtex @misc{thermal-stability-dataset_2025, title = {Thermal Stability Dataset (Synthetic)}, author = {https://huggingface.co/Taylor658}, year = {2025}, how published = {\url{https://huggingface.co/datasets/Taylor658/thermal-stability}} } ``` --- ## License 📄 This dataset is available under the **MIT License**. Free to use for commercial or academic purposes with attribution. --- ## Contributing ❄️🔥 - Add features for new waveguide materials.