NEWDIA4Planet: Research
Work packages
| Status | Complete |
|---|---|
| Objective | To learn the basics of the conventional IHDAC system, then design the new IHDAC system |
| Task 1.1 | Training for the operation of a conventional IHDAC system Complete |
| Task 1.2 | Designing a new IHDAC system, focusing mainly on application to H2O and other potential non-metallic planetary materials and extension of experimental P-T range Complete |
Work package 2: System production
| Status | Complete |
|---|---|
| Objective | To complete the development of the new IHDAC system designed in WP1. |
| Task 2.1 | Searching for the ideal materials for the sample chamber and the internal heater for the new IHDAC system designed in Task 1.2 Complete |
| Task 2.2 | Training for the operation of photolithography and thin-film deposition systems Complete |
Work package 3: Technical application
| Status | 50% Complete |
|---|---|
| Objective | To install the new IHDAC developed in WP2 into the Raman spectroscopy system |
| Task 3.1 | Learning how to use Raman spectrometer Complete |
| Task 3.2 | Setting up the new IHDAC system into the Raman spectrometer |
Work package 4: Scientific application
| Status | 75% Complete |
|---|---|
| Objective | To determine high pressure melting curve of H2O based on melting experiments using the new IHDAC installed into Raman spectroscopy system in WP3 |
| Task 4.1 | Conducting high pressure melting experiments on H2O using the new IHDAC system Complete |
| Task 4.2 | Data analysis of the measured melting temperatures and obtaining the equation for melting curve of H2O at high pressure. 50% Complete |
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 753858.
Copyright Emiko Sugimura-Komabayashi
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