職稱：副教授
學歷：國立臺灣師範大學
         物理碩士
分機：4533
信箱：

huangjj@mail.mcut.edu.tw

辦公室：機械館217

Office hour :(二)13:00~17:00

期刊論文

[1] Jung-Jeng Huang and Meng-Jong Wang, “Estimate of energy constituents of the universe in ΛCDM”, Canadian Journal of Physics, 95, 1, 21 (2017). (SCI)

[2] Jung-Jeng Huang, “Trans-Planckian effects on scalar field in conformal inflation”, International Journal of Advanced Research in Physical Science, Volume 4, Issue 1, January 2017, pp.1-8 (2017).

[3] Jung-Jeng Huang, “Evaluation of the cosmological constant from de Broglie pilot wave dynamics: inflation with conformal coupling”, International Journal of Advanced Research in Physical Science, Volume 3, Issue 7, 2016, pp.18-33 (2016).

[4] Jung-Jeng Huang, “Trans-Planckian effects on Bohm quantum trajectories of scalar field in conformal inflation”, Ming Chi Journal of General Education, Vol.4, pp.195-214 (2016). doi:10.6517/MCUT.

[5] Jung-Jeng Huang, “Evaluation of the cosmological constant in Inflation with a massive nonminimal scalar field”, Advances in High Energy Physics, Vol.2015, Article ID 569789, 7pages, 2015. doi:10.1155/2015/569789. (SCI)

[6] Jung-Jeng Huang, “Evaluation of the cosmological constant from de Broglie pilot wave dynamics: inflation with minimal coupling”, International Journal of Advanced Research in Physical Science, Volume 1, Issue 8, December 2014, pp.35-48 (2014).

[7] Jung-Jeng Huang, “Small cosmological constant from de Broglie-Bohm quantum theory”, International Journal of Emerging Science and Engineering, Vol.2, 2, 51 (2013).
 

[8] Jung-Jeng Huang, “Effect of the generalized uncertainty principle on the primordial power spectrum: lattice Schrödinger picture,” Chinese Journal of Physics, Vol. 51, 1151 (2013). doi:10.6122/CJP.51.1151 (SCI)

[9] Jung-Jeng Huang, “Bohm quantum trajectories of scalar field in trans-Planckian physics”, Advances in High Energy Physics. Vol.2012, Article ID 312841, 19 pages, 2012. doi:10.1155/2012/312841. (SCI)
 

[10] 黃鐘禎,“Trans-Planckian effect on power spectrum of inflation with conformal coupling to gravity”, 遠東學報, Vol. 28, pp.429~438, 2011.
 

[11] Jung-Jeng Huang, “Pilot-wave scalar field theory in de Sitter space: lattice Schroedinger picture”, Mod. Phys. Lett. A. 25, 1 (2010). (SCI)

[12] Jung-Jeng Huang, “Inflation and squeezed states: lattice Schroedinger picture”, Mod. Phys. Lett. A. 24, 497 (2009). (SCI)
 

[13] 賴文正、黃鐘禎, “大學通識課程之教與學-以「電與生活」為例”, 大同大學通識教育年報 第五期, 2009年6月, pp.197-212.
 

[14] 賴文正、王浩偉、張盛義、黃鐘禎, “教學助理應用多媒體教學及實施成效之研究-以「普通物理」為例”, 大同大學通識教育年報 第三期, 2007年6月, pp.233-246.
 

[15] 賴文正、張盛義、黃鐘禎, “教學助理應用台灣夜市遊戲設計物理課程可行性之探討”, 樹德通識教育專刊 創刊號, 2007年4月, pp.205-221.
 

[16] Jung-Jeng Huang, “Excited states of de Sitter space scalar fields: lattice Schroedinger picture”, Mod. Phys. Lett. A. 21, 1717 (2006). (SCI)
 

[17] Jung-Jeng Huang, “Scalar Field Theory in de Sitter Space: Schroedinger Picture Approach”, Minchi Institute of Technology Journal, Vol.27, 249 (1995).

[18] Jung-Jeng Huang, and Meng-Jong Wang, “Green’s functions of scalar field in de Sitter space: discrete lattice formalism.-I.”, Nuovo Cimento A. 100, 723 (1988).
 

[19] Jung-Jeng Huang, “On the Consequences of a Cosmological Model with a Time-Dependent Cosmological Constant and the Relationship between Einstein Principle, Mach’s Principle, and Dirac’s Principle”, Nuovo Cimento , B 87,148 (1985).

[20] Jung-Jeng Huang, and Meng-Jong Wang, “The Smallness of the Cosmological Constant and the Principle of  Naturalness”, Nuovo Cimento , B 80,13 (1984).

研討會論文
 

[1]黃鐘禎, “Trans-Planckian effects on Bohm quantum trajectories of scalar field : minimal inflation vs. conformal inflation”, 明志科技大學第五屆通識教育人文與教學學術研討會,106年4月21日.
 

[2]蔡宗謀、張盛義、陳建誠、黃鐘禎、黃志賢、劉小篔, “科學思維與應用橫向連結之研究 ”, 明志科技大學第一屆教學創新實踐研討會,107年3月16日.