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This study explores the dynamics of Moeller particles in HD-Ice experiments under transverse magnetic fields. It focuses on the impact of NMR (Nuclear Magnetic Resonance) and cryostat conditions on the survival rate of Moeller as they interact with the NMR coil and their subsequent movement toward the Central Detector. The experiment highlights that, while some Moeller particles manage to endure the NMR coil's effects, their trajectory toward the Forward Detector remains obstructed, providing insights into particle behavior in advanced detection systems.
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N60: HD-ice only The Transverse field drives the Moeller on the Central Detector
N60: HD-ice + NMR Few Moeller survive the NMR coil and move toward the Central Detector Forward Detector is clear
N60: HD-ice + NMR + Cryostat Few Moeller survive the NMR coil and move toward the Central Detector Forward Detector is clear
N75: HD-ice only The Transverse field drives the Moeller on the Central Detector
N75: HD-ice + NMR Few Moeller survive the NMR coil and move toward the Central Detector Forward Detector is clear
N75: HD-ice + NMR + Cryostat Few Moeller survive the NMR coil and move toward the Central Detector Forward Detector is clear
