ECE Imaging upgrade for ELM imaging measurement on DIII-D

Yilun Zhu; Yan Wang; Ben Tobias; Jo-han Yu; Anh-Vu Pham; Calvin Domier; Chen Luo; Ahmed Diallo; G. Kramer; Yang Ren; R. Nazikian; Ming Chen; Neville Luhmann

ECE Imaging upgrade for ELM imaging measurement on DIII-D

POSTER

Abstract

DIII-D ECEI uses liquid crystal polymer (LCP) substrates to combine System-on-Chip receivers with on-board LO multiplication and amplification inside a fully shielded, modular package. It improves x30 sensitivity compared to existing one, while significantly reducing EM interference, environmental noise, and radiation bursts, thereby improving ELM studies in the most ITER relevant, low-collisional regimes on DIII-D. Noise bursts that have been troublesome for ECEI of ELMs have been classified into different types: some indicate important processes involving reconnection and the acceleration of non-thermal electrons, while out-of-band interference had been removed. The upgrade facilitates studies on disruption avoidance during RF heating by static and not rotating MHD. The upgraded system can be used to infer RF heating deposition profiles with absolutely calibrated Te measurements.

Authors

Yilun Zhu

University of California at Davis
Yan Wang

University of California at Davis
Ben Tobias

Los Alamos National Lab, LLNL
Jo-han Yu

University of California at Davis
Anh-Vu Pham

University of California at Davis
Calvin Domier

University of California at Davis, UCD
Chen Luo

University of California at Davis
Ahmed Diallo

PPPL, Princeton Plasma Physics Laboratory, Princeton, New Jersey 08543, Princeton Plasma Physics Laboratory
G. Kramer

Princeton Plasma Physics Laboratory, PPPL
Yang Ren

PPPL, Princeton Plasma Physics Laboratory
R. Nazikian

Princeton Plasma Phys Lab, Princeton Plasma Physics Laboratory, Princeton Plasma Physics Lab, Princeton Plasma Physics Lab., PPPL
Ming Chen

University of California at Davis
Neville Luhmann

University of California at Davis, UCD