Slow Control Systems of the Reactor Experiment for Neutrino Oscillation
J. H. Choi, H. I. Jang, W. Q. Choi, Y. Choi, J. S. Jang, E. J. Jeon,, K. K. Joo, B. R. Kim, H. S. Kim, J. Y. Kim, S. B. Kim, S. Y. Kim, W. Kim, Y., D. Kim, Y. J. Ko, J. K. Lee, I. T. Lim, M. Y. Pac, I. G. Park, J. S. Park, R., G. Park, H. K. Seo, C. D. Shin, K. Siyeon, I. S. Yeo
TL;DR
This paper details the design and performance of the slow control system for the RENO neutrino experiment, emphasizing real-time monitoring and environmental control to ensure accurate measurements and safe operation.
Contribution
It introduces a comprehensive slow control system specifically developed for the RENO reactor neutrino experiment, highlighting its hardware, operation, and performance.
Findings
Effective real-time monitoring of detector conditions
Stable operation achieved through environmental control
Reliable data acquisition for neutrino measurements
Abstract
The RENO experiment has been in operation since August 2011 to measure reactor antineutrino disappearance using identical near and far detectors. For accurate measurements of neutrino mixing parameters and efficient data taking, it is crucial to monitor and control the detector in real time. Environmental conditions also need to be monitored for stable operation of detectors as well as for safety reasons. In this article, we report the design, hardware, operation, and performance of the slow control system.
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Taxonomy
TopicsNeutrino Physics Research · Astrophysics and Cosmic Phenomena · Particle Detector Development and Performance