Your search keyword '"Leung, Chung-Hei"' showing total 2 results

1. TAROGE-M: radio antenna array on antarctic high mountain for detecting near-horizontal ultra-high energy air showers

Author

Wang, Shih-Hao, Nam, Jiwoo, Chen, Pisin, Chen, Yaocheng, Choi, Taejin, Ham, Young-bae, Hsu, Shih-Ying, Huang, Jian-Jung, Huang, Ming-Huey A, Jee, Geonhwa, Jung, Jongil, Kim, Jieun, Kuo, Chung-Yun, Kwon, Hyuck-Jin, Lee, Changsup, Leung, Chung-Hei, Liu, Tsung-Che, Shiao, Yu-Shao J, Shin, Bok-Kyun, Wang, Min-Zu, Wang, Yu-Hsin, Anker, Astrid, Barwick, Steven W, Besson, Dave Z, Bouma, Sjoerd, Cataldo, Maddalena, Gaswint, Geoffrey, Glaser, Christian, Hallmann, Steffen, Hanson, Jordan C, Henrichs, Jakob, Kleinfelder, Stuart A, Lahmann, Robert, Meyers, Zachary S, Nelles, Anna, Novikov, Alexander, Paul, Manuel P, Pyras, Lilly, Persichilli, Christopher, Plaisier, Ilse, Rice-Smith, Ryan, Seikh, Mohammad FH, Tatar, Joulien, Welling, Christoph, Zhao, Leshan, and collaborations, TAROGE and ARIANNA

Subjects

Particle and High Energy Physics, Physical Sciences, Affordable and Clean Energy, cosmic ray experiments, cosmic rays detectors, neutrino detectors, neutrino experiments, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Astronomical sciences, Particle and high energy physics

Abstract

The TAROGE-M observatory is an autonomous antenna array on the top of Mt. Melbourne (∼2700 m altitude) in Antarctica, designed to detect radio pulses from ultra-high energy (over 1017 eV) air showers coming from near-horizon directions. The targeted sources include cosmic rays, Earth-skimming tau neutrinos, and most of all, the anomalous near-horizon upward-going events of yet unknown origin discovered by ANITA experiments. The detection concept follows that of ANITA: monitoring large area of ice from high-altitude and taking advantage of strong geomagnetic field and quiet radio background in Antarctica, whereas having significantly greater livetime and scalability. The TAROGE-M station, upgraded from its prototype built in 2019, was deployed in January 2020, and consists of 6 log-periodic dipole antennas pointing horizontally with bandwidth of 180-450 MHz. The station is then calibrated with drone-borne transmitter, with which the event reconstruction obtained ∼0.3° angular resolution. The station was then smoothly operating in the following month, with the live time of ∼ 30 days, before interrupted by a power problem, and its online filtering has identified several candidate cosmic-ray events and sent out via satellite communication. In this paper, the instrumentation of the station for polar and high-altitude environment, its radio-locating performance, the preliminary result on cosmic-ray detection, and the future extension plan are presented.

Published

2022

2. TAROGE-M: Radio Antenna Array on Antarctic High Mountain for Detecting Near-Horizontal Ultra-High Energy Air Showers

Author

Collaboration, TAROGE, Wang, Shih-Hao, Nam, Jiwoo, Chen, Pisin, Chen, Yaocheng, Choi, Taejin, Ham, Young-bae, Hsu, Shih-Ying, Huang, Jian-Jung, Huang, Ming-Huey A, Jee, Geonhwa, Jung, Jongil, Kim, Jieun, Kuo, Chung-Yun, Kwon, Hyuck-Jin, Lee, Changsup, Leung, Chung-Hei, Liu, Tsung-Che, Shiao, Yu-Shao J, Shin, Bok-Kyun, Wang, Min-Zu, Wang, Yu-Hsin, Collaboration, ARIANNA, Anker, Astrid, Barwick, Steven W, Besson, Dave Z, Bouma, Sjoerd, Cataldo, Maddalena, Gaswint, Geoffrey, Glaser, Christian, Hallmann, Steffen, Hanson, Jordan C, Henrichs, Jakob, Kleinfelder, Stuart A, Lahmann, Robert, Meyers, Zachary S, Nelles, Anna, Novikov, Alexander, Paul, Manuel P, Pyras, Lilly, Persichilli, Christopher, Plaisier, Ilse, Rice-Smith, Ryan, Seikh, Mohammad FH, Tatar, Joulien, Welling, Christoph, and Zhao, Leshan

Subjects

astro-ph.HE

Abstract

TAROGE-M is a self-triggered radio antenna array atop the 2700 m high Mt.Melbourne in Antarctica, designed to detect impulsive geomagnetic emission fromextensive air showers induced by ultra-high energy (UHE) particles beyond 0.1EeV, including cosmic rays (CRs), Earth-skimming tau neutrinos, andparticularly, the "ANITA anomalous events" (AAEs) from near and below thehorizon, which origin remains uncertain and requires more experimental inputsfor clarification. The detection concept of TAROGE-M takes advantage of a high altitude withsynoptic view toward the horizon as an efficient signal collector, and theradio quietness as well as strong and near vertical geomagnetic field inAntarctica. This approach has a low energy threshold, high duty cycle, and iseasy to extend for quickly enlarging statistics. Here we report experimentalresults from the first TAROGE-M station deployed in 2020, corresponding to$25.3$-days of livetime. The station consists of six receiving antennasoperating at 180-450 MHz, and can reconstruct source directions with$\sim0.3^\circ$ angular resolution. To demonstrate its ability to detect UHEair showers, a search for CR signals in the data was conducted, resulting inseven identified events. These events have a mean reconstructed energy of$0.95_{-0.31}^{+0.46}$ EeV and zenith angles between $25^\circ-82^\circ$, withboth distributions agreeing with simulations. The estimated CR flux is alsoconsistent with results of other experiments. The TAROGE-M sensitivity to AAEsis approximated by the tau neutrino exposure with simulations, suggestingcomparable sensitivity as ANITA's at $~1$ EeV energy with a few station-yearsof operation. These first results verified the station design and performancein a polar and high-altitude environment, and are promising for furtherdiscovery of tau neutrinos and AAEs after an extension in the near future.

Published

2022