柯忠廷 / 助研究員

研究興趣

• 量子傳輸，量子相變，一維及二維量子系統，拓樸超導，拓樸量子元

經歷

• 台夫特科技大學, QuTech, 博士後研究員

學術著作

期刊論文

• [1]     Zhang Gu, Chung Chung-Hou, Ke Chung-Ting, Lin Chao-Yun, Mebrahtu Henok, Smirnov Alex I., Finkelstein Gleb, Baranger Harold U., 2021, “Nonequilibrium quantum critical steady state: Transport through a dissipative resonant level”, Physical Review Research, 3(1), 013136.
  
  
• [2]     Kulesh Ivan, Ke Chung Ting, Thomas Candice, Karwal Saurabh, Moehle Christian M., Metti Sara, Kallaher Ray, Gardner Geoffrey C., Manfra Michael J., Goswami Srijit, 2020, “Quantum Dots in an InSb Two-Dimensional Electron Gas”, Physical Review Applied, 13(4), 041003. (SCIE) (IF: 4.985; SCI ranking: 22.5%)
  
  
• [3]     Ke C. T., Draelos A. W., Seredinski A., Wei M. T., Li H., Hernandez-Rivera M., Watanabe K., Taniguchi T., Yamamoto M., Tarucha S., Bomze Y., Borzenets I. V., Amet F., Finkelstein G., 2019, “Anomalous periodicity of magnetic interference patterns in encapsulated graphene Josephson junctions”, Physical Review Research, 1(3), 033084.
  
  
• [4]     Ke Chung Ting, Moehle Christian M., de Vries Folkert K., Thomas Candice, Metti Sara, Guinn Charles R., Kallaher Ray, Lodari Mario, Scappucci Giordano, Wang Tiantian, Diaz Rosa E., Gardner Geoffrey C., Manfra Michael J., Goswami Srijit, 2019, “Ballistic superconductivity and tunable π–junctions in InSb quantum wells”, Nature Communications, 10(1), 1-6. (SCIE) (IF: 14.919; SCI ranking: 5.5%)
  
  
• [5]     Wei M. T., Draelos A. W., Seredinski A., Ke C. T., Li H., Mehta Y., Watanabe K., Taniguchi T., Yamamoto M., Tarucha S., Finkelstein G., Amet F., Borzenets I. V., 2019, “Chiral quasiparticle tunneling between quantum Hall edges in proximity with a superconductor”, Physical Review B, 100(12), 121403. (SCIE) (IF: 4.036; SCI ranking: 38.7%,25.6%,31.9%)
  
  
• [6]     Draelos A. W., Silverman A., Eniwaye B., Arnault E. G., Ke C. T., Wei M. T., Vlassiouk I., Borzenets I. V., Amet F., Finkelstein G., 2019, “Subkelvin lateral thermal transport in diffusive graphene”, Physical Review B, 99(12), 125427. (SCIE) (IF: 4.036; SCI ranking: 38.7%,25.6%,31.9%)
  
  
• [7]     Draelos Anne W., Wei Ming Tso, Seredinski Andrew, Ke Chung Ting, Mehta Yash, Chamberlain Russell, Watanabe Kenji, Taniguchi Takashi, Yamamoto Michihisa, Tarucha Seigo, Borzenets Ivan V., Amet François, Finkelstein Gleb, 2018, “Investigation of Supercurrent in the Quantum Hall Regime in Graphene Josephson Junctions”, Journal of Low Temperature Physics, 191(5-6), 288-300. (SCIE) (IF: 1.57; SCI ranking: 74.4%,76.8%)
  
  
• [8]     Seredinski Andrew, Draelos Anne, Wei Ming-Tso, Ke Chung-Ting, Fleming Tate, Mehta Yash, Mancil Ethan, Li Hengming, Taniguchi Takashi, Watanabe Kenji, Tarucha Seigo, Yamamoto Michihisa, Borzenets Ivan V., Amet François, Finkelstein Gleb, 2018, “Supercurrent in Graphene Josephson Junctions with Narrow Trenches in the Quantum Hall Regime”, MRS Advances, 3(47-48), 2855-2864.
  
  
• [9]     Borzenets I. V., Amet F., Ke C. T., Draelos A. W., Wei M. T., Seredinski A., Watanabe K., Taniguchi T., Bomze Y., Yamamoto M., Tarucha S., Finkelstein G., 2016, “Ballistic Graphene Josephson Junctions from the Short to the Long Junction Regimes”, Physical Review Letters, 117(23), 237002. (SCIE) (IF: 9.161; SCI ranking: 8.1%)
  
  
• [10]     Ke Chung Ting, Borzenets Ivan V., Draelos Anne W., Amet Francois, Bomze Yuriy, Jones Gareth, Craciun Monica, Russo Saverio, Yamamoto Michihisa, Tarucha Seigo, Finkelstein Gleb, 2016, “Critical Current Scaling in Long Diffusive Graphene-Based Josephson Junctions”, Nano Letters, 16(8), 4788-4791. (SCIE) (IF: 11.189; SCI ranking: 11.2%,13.6%,9.5%,14%,9.4%,15.9%)
  
  
• [11]     Amet F., Ke C. T., Borzenets I. V., Wang J., Watanabe K., Taniguchi T., Deacon R. S., Yamamoto M., Bomze Y., Tarucha S., Finkelstein G., 2016, “Supercurrent in the quantum Hall regime”, Science, 352(6288), 966-969. (SCIE) (IF: 47.728; SCI ranking: 2.7%)
  
  
• [12]     Li Jinghua, Ke Chung-Ting, Liu Kaihui, Li Pan, Liang Sihang, Finkelstein Gleb, Wang Feng, Liu Jie, 2014, “Importance of Diameter Control on Selective Synthesis of Semiconducting Single-Walled Carbon Nanotubes”, ACS Nano, 8(8), 8564-8572. (SCIE) (IF: 15.881; SCI ranking: 7.8%,7.4%,6.3%,10.3%)
  
  
• [13]     Zhao Li, Yeh Kuo-Wei, Rao Sistla Muralidhara, Huang Tzu-Wen, Wu Phillip, Chao Wei-Hsiang, Ke Chung-Ting, Wu Cheng-En, Wu Maw-Kuen, 2012, “Anisotropic dielectric and ferroelectric response of multiferroic LiCu 2 O 2 in magnetic field”, EPL (Europhysics Letters), 97(3), 37004.
  
  
• [14]     MacFarlane W.A., Ofer O., Chow K.H., Hossain M.D., Parolin T.J., Saadaoui H., Song Q., Wang D., Arseneau D.J., Hitti B., Yeh K.-W., Ke C.-T., Wu M.-K., 2012, “Longitudinal Field Muon Spin Rotation Study of Magnetic Freezing in Fe Rich FeSe0.25Te0.75”, Physics Procedia, 30, 254-257.
  
  
• [15]     Rao S. M., Mok B. H., Ling M. C., Ke C. T., Chen T. K., Tsai I.-M., Lin Y.-L., Liu H. L., Chen C. L., Hsu F. C., Huang T. W., Wu T. B., Wu M. K., 2011, “Convective solution transport — An improved technique for the growth of big crystals of the superconducting α-FeSe using KCl as solvent”, Journal of Applied Physics, 110(11), 113919. (SCIE) (IF: 2.546; SCI ranking: 49.4%)
  
  
• [16]     Chao Wei-Hsiang, Yeh Kuo-Wei, Chen Ta-Kun, Chen Chi-Liang, Zhao Li, Chang Chung-Chieh, Huang Tzu-Wen, Ke Chung-Ting, Wu Mau-Kuen, 2010, “Characterization of multiferroic LiTMCu2−O2 (TM=Ni and Zn) single crystals”, Journal of Physics and Chemistry of Solids, 72(5), 601-603. (SCIE) (IF: 3.995; SCI ranking: 38%,33.3%)
  
  
• [17]     Huang Tzu-Wen, Chen Ta-Kun, Yeh Kuo-Wei, Ke Chung-Ting, Chen Chi Liang, Huang Yi-Lin, Hsu Fong-Chi, Wu Maw-Kuen, Wu Phillip M., Avdeev Maxim, Studer Andrew J., 2010, “Doping-driven structural phase transition and loss of superconductivity inMxFe1−xSeδ(M=Mn, Cu)”, Physical Review B, 82(10), 104502. (SCIE) (IF: 4.036; SCI ranking: 38.7%,25.6%,31.9%)
  
  
• [18]     Chen Ta-Kun, Luo Jiu-Yong, Ke Chung-Ting, Chang Hsian-Hong, Huang Tzu-Wen, Yeh Kuo-Wei, Chang Chung-Chieh, Hsu Po-Chun, Wu Chun-Te, Wang Ming-Jye, Wu Mau-Kuen, 2010, “Low-temperature fabrication of superconducting FeSe thin films by pulsed laser deposition”, Thin Solid Films, 519(5), 1540-1545. (SCIE) (IF: 2.183; SCI ranking: 76.2%,69.6%,58.8%,62.3%)
  
  
• [19]     Yeh K. W., Huang T. W., Ke C. T., Wu P. M., Zhao L., Chao W. H., Lee Y. C., Chen C. L., Wu M. K., 2010, “Nonstoichiometry of LixCu2O2+δ single crystal and its relation to magnetic ordering”, Journal of Applied Physics, 108(8), 083919. (SCIE) (IF: 2.546; SCI ranking: 49.4%)
  
  
• [20]     Chang Chung-Chieh, Luo Jiu-Yong, Chen Ta-Kun, Yeh Kuo-Wei, Huang Tzu-Wen, Hsu Chia-Hao, Chao Wei-Hsiang, Ke Chung-Ting, Hsu Po-Chun, Wang Ming-Jye, Wu Mau-Kuen, 2010, “Pulsed laser deposition of (MoO3)1−x(V2O5)x thin films: Preparation, characterization and gasochromic studies”, Thin Solid Films, 519(5), 1552-1557. (SCIE) (IF: 2.183; SCI ranking: 76.2%,69.6%,58.8%,62.3%)
  
  
• [21]     Mok B. H., Rao S. M., Ling M. C., Wang K. J., Ke C. T., Wu P. M., Chen C. L., Hsu F. C., Huang T. W., Luo J. Y., Yan D. C., Ye K. W., Wu T. B., Chang A. M., Wu M. K., 2009, “Growth and Investigation of Crystals of the New Superconductor α-FeSe from KCl Solutions”, Crystal Growth & Design, 9(7), 3260-3264. (SCIE) (IF: 4.076; SCI ranking: 37.4%,19.2%,38.1%)
  
  
• [22]     Yeh K. W., Ke C. T., Huang T. W., Chen T. K., Huang Y. L., Wu P. M., Wu M. K., 2009, “Superconducting FeSe1−xTex Single Crystals Grown by Optical Zone-Melting Technique”, Crystal Growth & Design, 9(11), 4847-4851. (SCIE) (IF: 4.076; SCI ranking: 37.4%,19.2%,38.1%)
  
  
• [23]     Wu M.K., Hsu F.C., Yeh K.W., Huang T.W., Luo J.Y., Wang M.J., Chang H.H., Chen T.K., Rao S.M., Mok B.H., Chen C.L., Huang Y.L., Ke C.T., Wu P.M., Chang A.M., Wu C.T., Perng T.P., 2009, “The development of the superconducting PbO-type β-FeSe and related compounds”, Physica C: Superconductivity, 469(9-12), 340-349. (SCIE) (IF: 1.241; SCI ranking: 83.8%,82.6%)
  
  
• [24]     Chen J. F., Ke C. T., Hsieh P. C., Chiang C. H., Lee W. I., Lee S. C., 2007, “Deep-level emissions in GaAsN∕GaAs structures grown by metal organic chemical vapor deposition”, Journal of Applied Physics, 101(12), 123515. (SCIE) (IF: 2.546; SCI ranking: 49.4%)