Your search keyword '"Lore, J."' showing total 5 results

1. Conceptual design of a Doppler spectrometer for 102 m/s cross-field flows in tokamak divertors.

Author

Fujii, K., Sano, R., Nakano, T., Ronchi, G., Park, J.-S., Lore, J. D., Shafer, M., and Biewer, T. M.

Abstract

The cross-field transport in the scrape-off-layers (SOLs) and divertors in tokamaks is of a similar size to the poloidal component of the parallel flow, thereby significantly impacting the plasma transport there. However, its direct observation has been challenging because the drift velocity (102–103 m/s) is significantly below the detection limit of conventional diagnostics. To realize cross-field ion flow measurement, a variety of systematic uncertainties in the system must be narrowed down. Here, we develop a conceptual design of the Doppler spectrometry that enables us to measure the impurity flows with 102-m/s accuracy based on an in situ wavelength-calibration technique developed in the astrophysics field, the iodine-cell method. We discuss its properties and applicability. In particular, the scaling relation between wavelength accuracy and various spectroscopic parameters is newly presented, which suggests the high importance of the wavelength resolution of the system. Based on transport simulations for the JT-60SA divertor, the feasibility of the system is assessed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Synthetic plasma edge diagnostics for EMC3-EIRENE, highlighted for Wendelstein 7-X

Author

Frerichs, H., primary, Effenberg, F., additional, Schmitz, O., additional, Biedermann, C., additional, Feng, Y., additional, Jakubowski, M., additional, König, R., additional, Krychowiak, M., additional, Lore, J., additional, Niemann, H., additional, Pedersen, T. S., additional, Stephey, L., additional, and Wurden, G. A., additional

Published

2016

3. Preliminary design of a tangentially viewing imaging bolometer for NSTX-U

Author

Peterson, B. J., primary, Sano, R., additional, Reinke, M. L., additional, Canik, J. M., additional, Delgado-Aparicio, L. F., additional, Lore, J. D., additional, Mukai, K., additional, Gray, T. K., additional, van Eden, G. G., additional, and Jaworski, M. A., additional

Published

2016

4. Design and characterization of a prototype divertor viewing infrared video bolometer for NSTX-U

Author

van Eden, G. G., primary, Reinke, M. L., additional, Peterson, B. J., additional, Gray, T. K., additional, Delgado-Aparicio, L. F., additional, Jaworski, M. A., additional, Lore, J., additional, Mukai, K., additional, Sano, R., additional, Pandya, S. N., additional, and Morgan, T. W., additional

Published

2016

5. Conceptual design of a Doppler spectrometer for 102 m/s cross-field flows in tokamak divertors.

Author

Fujii K, Sano R, Nakano T, Ronchi G, Park JS, Lore JD, Shafer M, and Biewer TM

Abstract

The cross-field transport in the scrape-off-layers (SOLs) and divertors in tokamaks is of a similar size to the poloidal component of the parallel flow, thereby significantly impacting the plasma transport there. However, its direct observation has been challenging because the drift velocity (102-103 m/s) is significantly below the detection limit of conventional diagnostics. To realize cross-field ion flow measurement, a variety of systematic uncertainties in the system must be narrowed down. Here, we develop a conceptual design of the Doppler spectrometry that enables us to measure the impurity flows with 102-m/s accuracy based on an in situ wavelength-calibration technique developed in the astrophysics field, the iodine-cell method. We discuss its properties and applicability. In particular, the scaling relation between wavelength accuracy and various spectroscopic parameters is newly presented, which suggests the high importance of the wavelength resolution of the system. Based on transport simulations for the JT-60SA divertor, the feasibility of the system is assessed., (© 2024 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).)

Published

2024