國立陽明交通大學 電子物理系
National Yang Ming Chiao Tung University
Department of Electrophysics
NYCU
Faculty
Tsung-Che Liu
Assistant professor(project)
Ph.D Institute of Physics, National Chiao-Tung university
Office
Science Building III, SC 505
Tel.
(03)5731638
Lab.
Astroparticle Lab.
NYCU Academic Hub Personal Website
Biography
Experience
Expertise
Interest
Publications
2003 - 2010
Ph.D, Institute of Physics, National Chiao-Tung university
1997 - 2001
B.S., Physics department, Fu Jen Catholic University
2021/02 -
Assistant Professor(project), Department of Electrophysics, National Yang Ming Chiao Tung University
2020/08 - 2021/01
Assistant professor(project), Department of Electrophysics, National Chiao Tung University
2010/08 - 2020/07
Unior Fellows, Leung Center for Cosmology and Particle Astrophysics, National Taiwan university.
2014 -
Visiting scientist, CSBF NASA
2010/08 - 2010/07
Adjunct Assistant Professor, National united university
2006/08 - 2010/07
adjunct lecturer, Professor, National united university
  1. Neutrino phenomenon
  2. Astro-particle physics
  3. Radio astronomy
  4. High energy physics simulation
  5. Space science
  6. Gamma-ray burst phenomenon
  7. instrument physics
  1. Neutrino phenomenon
  2. Astro-particle physics
  3. Radio astronomy
  4. High energy physics simulation
  5. Space science
  6. Gamma-ray burst phenomenon
  7. instrument physics
  1. G.L. Lin, T.C. Liu, M.A. Huang et al., “Laboratory astrophysics in Taiwan”, International Journal of Modern Physics B 21 (03n04), 378-388(2007) IF:0.736
    J.L. Liu, S.S. Zhang, Z. Cao et al., “Simulation of the cosmic ray tau neutrino telescope (CRTNT) experiment”, Journal of Physics G: Nuclear and Particle Physics 36 (7), 075201 (2009) IF:2.899 citations:2
  2. K.C. Lai, G.L. Lin, and T.C. Liu, “Determination of the neutrino flavor ratio at the astrophysical source”, Physical Review D 80 (10), 103005(2009) IF:4.557 citations:32
  3. T.C. Liu, K.C. Lai, and G.L. Lin, “Neutrino flavor ratio on Earth and at astrophysical sources”, Progress in Particle and Nuclear Physics 64 (2), 420-422 (2010) IF:11.229 citations:1
  4. K.C. Lai, G.L. Lin, and T.C. Liu, “Flavor transition mechanisms of propagating astrophysical neutrinos: A model independent parametrization”, Physical Review D 82 (10), 103003 (2010) IF:4.557 citations:12
  5. P. Allison et al., “Design and initial performance of the Askaryan Radio Array prototype EeV neutrino detector at the South Pole”, Astroparticle physics 35 (7), 457-477 (2012) IF:3.257 citations:210
  6. T.C. Liu, K.C. Lai, and G.L. Lin, “Neutrino Flavor Ratios on the Earth for Decay and Oscillation Scenarios”, Mod. Phys. Lett. A 28, 134005 (2013) IF:1.165
    J.W. Nam et al., “The Uffo Slewing Mirror Telescope for Early Optical Observation from Gamma Ray Bursts”, Mod. Phys. Lett. A 28, 1340003 (2013) IF:1.165 citations:3
  7. IH. Park et al., “Ultra-Fast Flash Observatory for the observation of early photons from gamma-ray bursts”, New Journal of Physics 15 (2), 023031 (2013) IF:3.786 citations:22
  8. K.C. Lai, G.L. Lin, and T.C. Liu, “Probing neutrino flavor transition mechanism with ultrahigh energy astrophysical neutrinos”, Physical Review D 89 (10), 033022(2014) IF:4.557 citations:2
  9. Y.Y. Chang et al., “Inverted-conical light guide for crosstalk reduction in tightly-packed scintillator matrix and MAPMT assembly”, Nuclear Instruments and Methods in Physics Research Section A, 771 55 (2015) IF:1.362 citations:2
  10. P. Allison et al., “First constraints on the ultra-high energy neutrino flux from a prototype station of the Askaryan Radio Array”, Astroparticle Physics 70, 62-80 (2015) IF:3.257 citations:26
  11. J.W. Nam et al., “Design and implementation of the TAROGE experiment”, International Journal of Modern Physics D 25 (13), 1645013 IF:2.476 citations:2
  12. Kwang-Chang Lai et al., “Probing Neutrino Mass Hierarchy by Comparing the Charged-Current and Neutral-Current Interaction Rates of Supernova Neutrinos”, JCAP 07 (2016) 039, arXiv:1603.00692 (2016) IF:4.734 citations:3
  13. K. Belov et al., “Accelerator measurements of magnetically-induced radio emission from particle cascades with applications to cosmic-ray air showers”, Phys. Rev. Lett. 116, 141103 (2016) IF:8.462 citations:16
  14. P. Allison et al., “Performance of two Askaryan Radio Array stations and first results in the search for ultra-high energy neutrinos”, Phys. Rev. D 93, 082003 IF:4.557 citations:23
  15. P.W. Gorham et al., ” Characteristics of Four Upward-pointing Cosmic-ray-like Events Observed with ANITA”, Phys. Rev. Lett. 117, 071101. arXiv: 1603.05218 (2016) IF:8.462 citations:9
  16. P.W. Gorham et al.,. (ANITA Collaboration), “Antarctic Surface Reflectivity Measurements from the ANITA-3 and HiCal-1 Experiments”, Journal of Astronomical Instrumentation, 06, 1740002 (2017)
  17. P. Allison et al. (ARA Collaboration), “Constraints on the ultra-high-energy neutrino flux from Gamma-Ray bursts from a prototype station of the Askaryan radio array”, Astroparticle Physics, Volume 88, February 2017, Pages 7–16 IF:3.257 citations:2
  18. P.Allison et al.,. (ANITA Collaboration) Dynamic tunable notch filters for the Antarctic Impulsive Transient Antenna (ANITA) Nuclear Instruments and Methods in Physics Research Section A, Vol. 894, p47-56 (2018)
  19. S Jeong for the UFFO collaboration, “UBAT of UFFO/Lomonosov: The X-Ray Space Telescope to Observe Early Photons from Gamma-Ray Bursts”, Space Science Reviews 214:16 (2018)IF: 7.497
  20. IH Park for the UFFO collaboration, “UFFO/Lomonosov: The payload for the observation of early photons from gamma ray bursts”, Space Science Reviews 214:14 (2018)IF: 7.497
  21. P.W. Gorham et al. (ANITA Collaboration), “Constraints on the diffuse high-energy neutrino flux from the third flight of ANITA Physical Review D 98 (2), 022001 IF:4.557
  22. P.W. Gorham, B. Rotter et al. (ANITA Collaboration), “Observation of an Unusual Upward-going Cosmic-ray-like Event in the Third Flight of ANITA”, arXiv:1803.05088, Phys. Rev. Lett. 121, 161102
  23. ARA Collaboration, ” Design and performance of an interferometric trigger array for radio detection of high-energy neutrinos.”, Nuclear Instruments and Methods in Physics Research Section A, 930, 112-125
  24. ANITA Collaboration, “HiCal 2: An instrument designed for calibration of the ANITA experiment and for Antarctic surface reflectivity measurements.”, Nuclear Instruments and Methods in Physics Research Section A, 918,60-66
  25. ARA Collaboration, “Measurement of the real dielectric permittivity εr of glacial ice.”, Astroparticle Physics , 108, 63-73
  26. ANITA Collaboration, “Comprehensive analysis of anomalous ANITA events disfavors a diffuse tau-neutrino flux origin”, Physical Review D, 99 (6), 063011
  27. ANITA Collaboration, “Constraints on the ultrahigh-energy cosmic neutrino flux from the fourth flight of ANITA”, Physical Review D, 99 (12), 122001
  28. ARA Collaboration, “The simulation of the sensitivity of the Antarctic Impulsive Transient Antenna (ANITA) to Askaryan radiation from cosmogenic neutrinos interacting in the Antarctic Ice.” Journal of Instrumentation 14 (08), P08011