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1.Y. C. Lin, Y. L. Wang, Y. Liu, and T. M. Hong*, “Crumpling under an ambient pressure”, Phys. Rev. Lett. 101, 125504 (2008)
2.Y. C. Lin, J. M. Sun, J. H. Hsiao, Y. K. Hwu, C. L. Wang, and T. M. Hong*, “Spontaneous emergence of ordered phases in crumpled sheets”, Phys. Rev. Lett. 103, 263902 (2009); issue cover
3.C. S. Wen, J. H. Hsiao, K. T. Lin, T. M. Hong, J. C. Chen*, T. Ueda, and S. Komiyama, “Observation of resonance conductance in a quantum point contact with a tunable channel potential”, Phys. Rev. B 82, 115416 (2010)
4.C. H. Chang and T. M. Hong*, “Interlayer exchange coupling theory beyond the proximity-force approximation”, Phys. Rev. B 82, 094415 (2010)
5.J. H. Hsiao and T. M. Hong*, “Moment formation in quantum point contacts due to spin-orbit interaction”, Phys. Rev. B 82, 115309 (2010)
6.W. B. Bai, Y. C. Lin, T. K. Hou, and T. M. Hong*, “Scaling relation for a compact crumpled thin sheet”, Phys. Rev. E 82, 066112 (2010)
7.C. H. Chang* and T. M. Hong*, “Switching off the magnetic exchange coupling by quantum resonances”, Phys. Rev. B 85, 214415 (2012)
8.S. F. Liou, C. C. Lo, M. H. Chou, P. Y. Hsiao, and T. M. Hong*, “Effect of ridge- ridge interactions in crumpled thin sheets”, Phys. Rev. E 89, 022404 (2014)
9.M. H. Chou, W. C. Shen, Y. P. Wang, S. H. Hung, and T. M. Hong*, “Curling edges: A problem that has plagued scrolls for millennia”, Phys. Rev. Lett. 112, 034302 (2014). Editor’s Suggestion with Synopsis in Physics. Also featured in Science, Physics Today, and New Scientist magazines.
A. Refereed Papers:
B. Other Publications:
1.T. M. Hong and J. M. Wheatley, "Corrections to the Hall mobility",Phys. Rev. B 42, 6492-6297 (1990), 6 citations
2.T. M. Hong and J. M. Wheatley, "Diamagnetism in the dissipative regime",Phys. Rev. B 43, 5702-5705 (1991), 3 citations
3.J. M. Wheatley and T. M. Hong, "Coherence properties of holes subject to a fluctuating spin chirality", Phys. Rev. B 43, 6288-6291(R) (1991), 20 citations
4.T. M. Hong and S. F. Edwards, "Formulations of polymer network theory",Polymer Comm. 32, 162-163 (1991)
5.T. M. Hong and S. F. Edwards, "A note on the instability in kinetic gelation",Polymer Comm. 32, 194-195 (1991)
6.T. M. Hong, "Stationary forms of polymer chains", Polymer Comm. 33, 1326-1327 (1992)
7.T. M. Hong, "Magnetic correlations in Kondo lattice problem",J. Magn. Magn. Mater. 108, 91-92 (1992)
8.T. M. Hong and G. A. Gehring, "On the mean-field theory of antiferromagnetically ordered Kondo lattices", J. Magn. Magn. Mater. 108, 93-94 (1992), 5 citations
9.T. M. Hong and G. A. Gehring, "Mean-field results for the Kondo lattices at high magnetic fields", Phys. Rev. B 46, 231-236 (1992), 12 citations
10.T. M. Hong, "Mean-field expression for the characteristic Gruneisen parameter of the Kondo lattices", Phys. Rev. B 46, 13862-13866 (1992), 4 citations
11.T. M. Hong*, G. A. Gehring, and R. Wojciechowski, "Calculation of the temperature dependence of the susceptibility of heavy fermion compounds from the Periodic Anderson Model",Physica B 186-188, 869-872 (1993), 4 citations
12.T. M. Hong*, "Reaction rate study of a statistical disentangling model",J. Phys. A: Math. Gen. 26, 1263-1274 (1993)
13.T. M. Hong*, "Possible deduction of ferromagnetic intersite correlations in the heavy-fermion compounds", Chin. J. Phys. 31, 773-781 (1993)
14.T. M. Hong* and Joseph Wheatley, "Collective effects near a staggered flux phase instability",Chin. J. Phys. 31, 783-91 (1993)
15.T. M. Hong*, S. J. Sun, and J. H. Lin, "Quantum particles in a fluctuating uniform magnetic field", Chin. J. Phys. 31, 1015-7 (1993)
16.S. J. Sun, M. F. Yang*, and T. M. Hong, "Magnetic properties of the symmetric Periodic Anderson model in infinite dimensions", Phys. Rev. B 48, 16123-16126 (1993), 14 citations
17.M. F. Yang*, S. J. Sun, and T. M. Hong, "Slave-Boson mean-field theory v.s. variational-wave function approach for Periodic Anderson Model", Phys. Rev. B 48, 16126-16129 (1993), 6 citations
18.T. M. Hong* and J. H. Lin, "Two-body problems with an infinite-potential boundary condition",Chin. J. Phys. 32, 1-6 (1994)
19.T. M. Hong*, S. J. Sun, and J. H. Lin, "Field dependence of the anomalous Hall resistance of the heavy-fermion compounds", Physica B 199&200, 209-210 (1994)
20.T. M. Hong, S. J. Sun, and M. F. Yang, "Groundstate magnetic properties of the periodic Anderson model with finite U", Physica B 199&200, 222-223 (1994)
21.J. H. Lin, T. M. Hong, and S. J. Sun, "Effect of hybridization anisotropy on U-based heavyfermion compounds", Physica B 199&200, 55-56 (1994)
22.T. M. Hong and J. H. Lin, "Elastic anomaly of heavy fermion compounds in crystal field",Chin. J. Phys. 32, 489-496 (1994)
23.T. M. Hong and S. J. Sun,"Antiferromagnetism and superconductivity in heavy fermion compounds", Chin. J. Phys. 32, 871-877 (1994)
24.T. M. Hong and J. H. Lin, "A Schottky-like anomaly in systems with finite number of layers",Chin. J. Phys. 33, 133-8 (1995)
25.T. M. Hong and J. H. Lin, "Specific heat of ideal particles in multilayer systems",Phys. Rev. B 52, 7898-7900 (1995), 1 citation
26.T. M. Hong and J. H. Lin, "Thermodynamic properties of ideal particles in a finite number of layers", Physica A 221, 109-116 (1995)
27.S. J. Sun, T. M. Hong, and M. F. Yang, "Phase diagram of the two-dimensional periodic Anderson model at half-filling", Physica B 216, 111-115 (1995)
28.S. J. Sun, C. Y. Tsau, and T. M. Hong, "Influence of electron-phonon interaction to the periodic Anderson lattice", Physica B 217, 107-110 (1996), 2 citations
29.S. J. Sun, C. Y. Tsau, and T. M. Hong, "Magnetic properties of the Anderson lattice in second order U-perturbation", Chin. J. Phys. 34, 77-83 (1996)
30.P. Y. Hsiao and T. M. Hong, "Dispersion relation of plasmas in inhomogeneous metals", Progr.Theor. Phys. (Kyoto) 95, 531-542 (1996)
31.S.J. Sun and T.M. Hong,"Superconducting UPt3 under pressure", Chin. J. Phys. 34, 546-551 (1996)
32.D. W. Wang, Y. C. Chou, and T. M. Hong, "Possible origin of convection flow in granular systems", Europhys. Lett. 35, 333-336 (1996)
33.M. C. Chang, Ming-Fong Yang, and T. M. Hong, "Effect of Landau level mixing for electrons in random magnetic field", Phys. Rev. B 56, 3601-3605 (1997), 6 citations
34.T. M. Chang and T. M. Hong, "One-dimensional interacting Bose gas in an infinite potential well", Chin. J. Phys. 35, 570-6 (1997)
35.T. M. Hong and F. R. Lee, "Magnetic susceptibility in the Aharonov-Bohm experiment", Chin.J. Phys. 35, 708-717 (1997)
36.M. Y. Lee, M. C. Chang, and T. M. Hong, "Effect of band crossing on Hall conductivity of lattice electrons", Phys. Rev. B 57, 11895-8 (1998), 7 citations
37.T. M. Hong, "Simple mechanism for a positive exchange bias", Phys. Rev. B 58, 97-100 (1998),39 citations
38.H. F. Meng and T. M. Hong, "Carrier generation mechanism for photoconductivity in conjugated polymers", Phys. Rev. B 61, 9913-6 (2000), 10 citations
39.C. Y. Mou* and T. M. Hong, "Transport in quantum wells in the presence of interface roughness",Phys. Rev. B 61, 12612-5 (2000), 25 citations
40.Y. Y. Chen*, Y. D. Yao, C. R. Wang, W. H. Li, C. L. Chang, T. K. Lee, T. M. Hong, J. C. Ho,and S. F. Pan, "Size-induced transition from magnetic ordering to Kondo behavior in (Ce, Al) compounds", Phys. Rev. Lett. 84, 4990-3 (2000), 28 citations
41.T. M. Hong* and H. F. Meng, "Spin-dependent recombination and electroluminescence quantum yield in conjugated polymers", Phys. Rev. B 63, 075206 (2001); 25 citations
42.H. F. Meng* and T. M. Hong, "Deep defects and exciton dissociation in conjugated polymers",Physica B 304, 119-136 (2001), 6 citations
43.H. H. Lin and T. M. Hong*, “Short-range interactions in the single-wall carbon nanotubes”,Physica B 312-313, 677-679 (2002), 1 citation
44.Y. J. Lee*, C. R. Chang, M. T. Lin, and T. M. Hong, “Long-range exchange bias through a metal spacer”, J. Magn. Magn. Mater. 240, 264-266 (2002), 2 citations
45.Y. J. Lee*, C. R. Chang, T. M. Hong, M. T. Lin, and C. H. Ho,“Theoretical studies of oscillatory behavior for long-range exchange bias”, J. Magn. Magn. Mater. 239, 57-59 (2002), 2 citations
46.T. M. Hong*, C. H. Wu, S. D. Tseng, and S. Gwo, “Utilizing the coulomb force on a carbon nanotube to enhance the resolution of electrostatic force microscope”, Int. J. Nanoscience 2, 1-6 (2003)
47.Wei Chen*, T. M. Hong, and H. H. Lin, “Semiclassical quantizations rule for the bound-state spectrum in quantum dots: Scattering phase approximation”, Phys. Rev. B 68, 205104 (2003), 6 citations
48.W. Chen*, T. M. Hong, and H. H. Lin, “Scattering phase approach for the energy spectrum in quantum dot”, Physica E 18, 85-86 (2003), 1 citations
49.Hung-Ta Lin, Tsung-Shune Chin*, Jhy-Chau Shih, Show-Hau Lin, Tzay-Ming Hong,Rong-Tan Huang, Fu-Rong Chen and Ji-Jung Kai, “Enhancement of ferromagnetic properties in Zn1-xCoxO by additional Cu doping”, Appl. Phys. Lett. 85, 621 (2004), 96 citations 50 Chih-Huang Lai, Yu-Jen Wang, P. H. Huang, S. Y. Yang and T. S. Chin, H. H. Lin, T. M. Hong, H. J. Lin and C. T. Chen, “Transition of uniaxial to unidirectional in-plane perpendicular interlayer coupling in IrMn/CoFe/NiFeO/CoFe”, Appl. Phys. Lett. 88, 112510 (2006), 3 citations
50.C. H. Lin, H. H. Lin, and T. M. Hong, “Spiral and RKKY exchanges in diluted magnetic semiconductor junction”, Appl. Phys. Lett. 89, 032503 (2006), 2 citations
51.Gwo-Jen Hwang, Pei-Ren Jeng, Chenhsin Lien, C. S. Chen, Yung-Shiang Tsao, Hung-Shun Hwang,Sheng-Quan Xu, T. M. Hong, and Y. C. Chou, “Field effects on electron conduction through self-assembled monolayers”, Appl. Phys. Lett. 89, 133120 (2006), 4 citations 53 S. P. Chen, C. R. Chang, T. M. Hong, and C. H. Lai, “Spin accumulation from the spin Hall effect studied using the effective mean-free-path model”, IEEE Transactions on Magnetics 42, 2667 (2006), 3 citations 54 W. T. Wu, C. Y. Cheng, Y. C. Chou, Y. C. Cho, C. H. Chou, H. C. Hsu, H. C. Lin, F. M. Wang, Y. C. Lee, R. H. Hsiao, Y. C. Lin, K. W. To, and T. M. Hong*, “Dynamics of a chain under vibration”, Phys. Rev. E (2007)
52.Y. C. Lin, K. Yun, and T. M. Hong*, “Circular invasion of fluid into a quenched disordered media”, J. Phys.: C (submitted, 2008)
53.C. H. Chang and T. M. Hong*, “Spin-glass-like behavior caused by Mn-riched Mn(Ga)As nanoclusters in GaAs”, Appl. Phys. Lett. 93, 212106 (2008), 3 citations
54.Y. C. Lin, Y. L. Wang, Y. Liu, and T. M. Hong*, “Crumpling under an ambient pressure”,Phys. Rev. Lett. 101, 125504 (2008), 15 citations
55.T. Y. Wang and T. M. Hong*, “Segregation induced by phase synchronization in a bidisperse granular layer”, Phys. Rev. E 78, 061301 (2008)
56.K. M. Liu, J. H. Hsiao, T. M. Hong, V. Umansky, and S. Y. Hsu*, “Possible intrinsic bound state in a quantum wire”, Elsevier (2008)
57.K. M. Liu, J. H. Hsiao, T. M. Hong, V. Umansky, and S. Y. Hsu*, “The formation of bound states and the conductance modulation on 0.7 anomaly in a quasi-1D quantum wire”,J. Phys.: Conference Series 150, 022052 (2009)
58.Y. C. Lin, Y. W. Lin, and T. M. Hong*, “Crumpling wires in two dimensions”,Phys. Rev. E 78, 067101 (2008), 4 citations
59.J. H. Hsiao, K. M. Liu, S. Y. Hsu, and T. M. Hong*, “0.7 anomaly due to Rashba interaction in non-uniform electric field”, Phys. Rev. B 79, 033304 (2009), 6 citations
60.C. H. Chang and T. M. Hong*, “Interlayer coupling enhanced by the interface roughness”, Phys.Rev. B 79, 054415 (2009), 4 citations
61.C. H. Chang, J. H. Hsiao, and T. M. Hong*, “Optical Doppler effect in a medium”, Chin. J.Phys. 47, 421 (2009)
62.Y. C. Chou*, E. Cho, T. H. Chou, and T. M. Hong, “Elasticity transition and loop formation in vibrated bead chains: A simulation of polymer chains”, Eur. Phys. J. E 29, 157 (2009), 3 citations
63.C. H. Chang, S. M. Wang, and T. M. Hong*, “Origin of branch points in the spectrum of PT-symmetric periodic potentials”, Phys. Rev. A 80, 042105 (2009), 5 citations
64.C. H. Chang and T. M. Hong*, “Oscillation for the indirect coupling between magnetic clusters”,Chin. J. Phys. 47, 719 (2009)
65.Y. C. Lin, J. M. Sun, H. W. Yang, Yuekuang Hwu, C. L. Wang, and T. M. Hong*, “X-ray tomography of a crumpled plastoelastic thin sheet”, Phys. Rev. E 80, 066114 (2009), 10 citations
66.Y. C. Lin, J. M. Sun, J. H. Hsiao, Y. K. Hwu, C. L. Wang, and T. M. Hong*, “Spontaneous emergence of ordered phases in crumpled sheets”, Phys. Rev. Lett. 103, 263902 (2009); issue cover, 7 citations
67.Y. C. Lin, T. M. Hong, and H. H. Lin*, “Discreteness of populations enervates biodiversity in evolution”, Phys. Rev. E (submitted, 2010)
68.C. S. Wen, J. H. Hsiao, K. T. Lin, T. M. Hong, J. C. Chen*, T. Ueda, and S. Komiyama,“Observation of resonance conductance in a quantum point contact with a tunable channel potential”, Phys. Rev. B 82, 115416 (2010), 1 citation
69.C. H. Chang and T. M. Hong*, “Interlayer exchange coupling theory beyond the proximity-force approximation”, Phys. Rev. B 82, 094415 (2010), 2 citations
70.J. H. Hsiao and T. M. Hong*, “Moment formation in quantum point contacts due to spin-orbit interaction”, Phys. Rev. B 82, 115309 (2010), 3 citations
71.W. B. Bai, Y. C. Lin, T. K. Hou, and T. M. Hong*, “Scaling relation for a compact crumpled thin sheet”, Phys. Rev. E 82, 066112 (2010), 5 citations
72.K.-P. Tung, C. C. Chen, P. W. Lee, Y. W. Liu, T. M. Hong, K. C. Hwang, J. Hsu, J. White, and A.C.–M. Yang*, “Large enhancements in optoelectronic efficiencies of nano-plastically stressed conjugated polymer strands”, ACS Nano. 5, 7296 (2011), 5 citations
73.C. H. Chang* and T. M. Hong*, “Switching off the magnetic exchange coupling by quantum resonances”, Phys. Rev. B 85, 214415 (2012)
74.C. H. Wang, T. M. Hong, R. K. Lee*, and D. W. Wang, “Particle-wave duality in the quantum tunneling of a bright soliton”, Opt. Express 20, 22675 (2012), 6 citations
75.S. F. Liou, C. C. Lo, M. H. Chou, P. Y. Hsiao, and T. M. Hong*, “Effect of ridge-ridge interactions in crumpled thin sheets”, Phys. Rev. E 89, 022404 (2014)
76.M. H. Chou, W. C. Shen, Y. P. Wang, S. H. Hung, and T. M. Hong*, “Curling edges: A problem that has plagued scrolls for millennia”, Phys. Rev. Lett. 112, 034302 (2014). Editor’s Suggestion with Synopsis in Physics. Also featured in Science, Physics Today, and New Scientist.
77.Y. L. Tsai, C. W. Li*, T. M. Hong, J. Z. Ho, E. C. Yang, W. Y. Wu, G. Margaritondo, S. T. Hsu,E. B. L. Ong, and Y. Hwu*, “Firefly Light Flashing: Oxygen Supply Mechanism”, Phys. Rev.Lett. 113, 258103 (2014), issue cover and featured in Physics.
78.H. W. Chao, Y. R. Chen, S. C. Fong, S. C. Chang, T. S. Chin, T. M. Hong, and T. H. Chang*,“Microwave Mediated Melting of Ionic Crystals”, Phys. Rev. E (submitted, 2014)
79.C. H. Chang*, K. P. Dou, Y. C. Chen, T. M. Hong, and C. C. Kaun*, “Engineering the interlayer exchange coupling in magnetic trilayers”, Sci. Rep. 5, 16844 (2015)
80.S. T. Tsai, C. D. Chang, C. H. Chang, M. X. Tsai, N. J. Hsu, and T. M. Hong*, “Power-law ansatz in complex systems: Excessive loss of information”, Phys. Rev. E 92, 062925 (2015)
81.S. T. Tsai, L. M. Wang, P. P. Huang, Z. N. Yang, C. D. Chang, and T. M. Hong*, “Acoustic Emission from Breaking s Bamboo Chopstick”, Phys. Rev. Lett. 116, 035501 (2016)
82.S. T. Tsai, M. X. Tsai, M. R. Lin, Z. N. Yang, and T. M. Hong*, “Proper set of elements in Zipf’s law”, Phys. Rev. E (in preparation, 2016)
1.林志鴻和洪在明譯,實驗上提供給高溫超導的指標,15 卷3 期,365-375 頁(1993)
2.洪在明,兩個粒子的薛丁格方程式,15 卷5 期,666-668 頁(1993)
3.洪在明,幾個和無窮高位能有關的經驗,15 卷6 期,792-795 頁(1993)
4.洪在明、單中杰和林怡美,如何估計摩擦係數?15 卷3 期,368-369 頁(1994)
5.洪在明、單中杰和林怡美,幾個和摩擦係數有關的常識,16 卷4 期,496-497 頁(1994)
6.洪在明、林志鴻和林高進,一維電子氣體的比熱,16 卷5 期,571-573 頁(1994)
7.洪在明,和解量子波函數有關的一些問題,17 卷2 期,297-300 頁(1995)
8.洪在明,等速運動的無窮位能井能階,17 卷3 期,396-397 頁(1995)
9.洪在明,量子力學中的vector potentials,17 卷4 期,527-528 頁(1995)
10.洪在明和蕭百沂,電漿振動的正確圖像,17 卷5 期,602-604 頁(1995)
11.洪在明,一個有助於理解測不準原理的習題,17 卷6 期,683-684 頁(1995)
12.洪在明和蕭智仁,另一個狹義相對論的問題,科學月刊27 卷5 期,427 頁(1996)
13.洪在明、何仁碩、陳摘文和林志駿,重力場在不同慣性座標系的轉換,18 卷3 期,401-402 頁(1996)
14.洪在明、周宗憲、林志駿和陳摘文,氣泡的大小,18 卷4 期,507-509 頁(1996)
15.洪在明、張明哲、陳摘文和林志駿,不同慣性座標系在介質中的時空轉換,18 卷5 期,593-594 頁(1996)
16.洪在明、張明哲、陳摘文和林志駿,和摩擦力有關的幾個普物題目,18 卷6 期,667-668 頁(1996)
17.洪在明、牟中瑜、陳摘文和林志駿,物體底部的正向力如何分佈?18 卷6 期,669-671 頁(1996)
18.洪在明、侯汝純、陳摘文和林志駿,需要考慮應變的普物題目,19 卷2 期,255-257 頁(1996)
19.洪在明、紀延平、陳摘文和林志駿,又是狹義相對論的題目,19 卷3 期,317-318 頁(1996)
20.洪在明和蔡振明,理想電子氣的磁性,19 卷4 期,381-3828 頁(1997)
21.洪在明和胡崇德,物理張老師信箱,21 卷6 期,677-683 頁(1999)
22.洪在明和胡崇德,物理張老師信箱,22 卷3 期,242-247 頁(2000)
23.洪在明和胡崇德,物理張老師信箱,22 卷4 期,421-428 頁(2000)
24.洪在明和胡崇德,物理張老師信箱,22 卷5 期,517-525 頁(2000)
25.洪在明和林秀豪,又是狹義相對論的問題,24 卷2 期,383-384 頁(2002)
26.洪在明和林秀豪,牽涉到質量會隨時間改變的力學問題,27 卷2 期,426-428 頁(2005)
27.洪在明,凡事無絕對─狹義相對論,科學月刊35 卷3 期,218-222 頁(2005)
28.吳韋達、許琇娟、曾喬毓、林心家和洪在明,一個有趣的軟凝體物理實驗,28 卷3 期,615-616 頁(2006)
29.劉修源、葉懷哲、賴彥合、張其明和洪在明,還是跟相對論有關的問題,28 卷4 期,711-712 頁(2006)
30.林彥誌、王永利、劉瑩和洪在明,The physics of crumpling 淺談皺摺力學,30 卷4 期,457-458 頁(2008)
31.洪在明和張景皓,狹義相對論的時間延滯,31 卷5 期,608 頁(2009)
32.李孟融、劉有騏和洪在明,震出來的學問─受到外界震動的書本運動實驗,科學月刊41 卷3 期,220-223 頁(2010)
33.蕭百沂和洪在明,狹義相對論─無動力火箭對飛相撞問題,科學月刊43 卷3 期,214-219 頁(2012)
34.洪在明,波卡為什麼沒吃幾片就空了,34 卷5 期,416-418 頁(2012)
35.洪在明譯,希格斯玻色子現身,科學人128 期,22 頁(2012)
36.洪在明譯,「恰到好處」的吉他,科學人129 期,19 頁(2012)
37.洪在明譯,材料也懂自我設計,科學人129 期,25 頁(2012)
38.洪在明,DNA 搭乘頭等艙,65-73 頁(清華大學出版社,五南圖書出版公司,2012)
39.洪在明譯,按比例縮小,科學人130 期,21 頁(2012)
40.洪在明譯,易碎才不易碎,科學人130 期,24 頁(2012)
41.洪在明譯,屍骨無存的星體,科學人131 期,13 頁(2013)
42.洪在明譯,河水潺潺流過火星,科學人131 期,19 頁(2013)
43.沈維昭、周明翰、汪依平、簡若帆、張景皓、洪順興和洪在明,和故宮博物院合作探討的起瓦現象,物理雙月刊35 卷1 期,68-74 頁(2013)
44.洪在明譯,鑽石行星,科學人132 期,14 頁(2013)
45.洪在明譯,失蹤的年代,科學人132 期,15 頁(2013)
46.洪在明譯,行星環理論,科學人133 期,15 頁(2013)
47.洪在明譯,航海家1 號還沒遠去,科學人133 期,16 頁(2013)
48.洪在明譯,保持距離,以策安全,科學人134 期,24 頁(2013)
49.洪在明譯,透視麥哲倫雲,科學人135 期,14 頁(2013)
50.洪在明譯,探索冥王星外的新世界,科學人135 期,19 頁(2013)
51.洪在明譯,太空中的蝌蚪,科學人136 期,17 頁(2013)
52.洪在明譯,防範小型隕石撞擊地球,科學人136 期,21 頁(2013)
53.洪在明譯,今夏宇宙煙火秀,科學人137 期,18 頁(2013)
54.洪在明譯,找個離地球不遠的新家,科學人137 期,28 頁(2013)
55.洪在明譯,電性與物質的現代理論,科學人137 期,44 頁(2013)
56.洪在明譯,分子確實存在,科學人137 期,45 頁(2013)
57.洪在明譯,熱原子化學,科學人137 期,46 頁(2013)
58.洪在明譯,恆星的最後一口氣,科學人138 期,33 頁(2013)
59.洪在明譯,泡泡堆的物理,科學人138 期,36 頁(2013)
60.洪在明譯,行星魅影,科學人139 期,22 頁(2013)
61.洪在明譯,計算超級風暴桑迪,科學人139 期,24 頁(2013)
62.洪在明譯,細數銀河系衛星星系,科學人140 期,24 頁(2013)
63.洪在明譯,不必過度保護火星,科學人140 期,26 頁(2013)
64.洪在明譯,完美定義絕對溫度,科學人141 期,22 頁(2013)
65.洪在明譯,歪斜的宇宙,科學人141 期,26 頁(2013)
66.洪在明譯,用微中子幫宇宙算命,科學人142 期,24 頁(2013)
67.洪在明譯,永別了,超巨星,科學人142 期,28 頁(2013)
68.洪在明,物理學家的生命週期,物理雙月刊35 卷6 期,506-509 頁(2013)
69.洪在明譯,等待「微中子不出現」,科學人143 期,14 頁(2014)
70.洪在明譯,銀河系的蹺家恆星,科學人143 期,15 頁(2014)
71.沈維昭、周明翰、汪依平、簡若帆、鄭詠允、洪順興和洪在明,起瓦─困擾書畫收藏家數百年的物理現象,科學發展493 期,38 頁(2014)
72.洪在明譯,暗物質搜索無功,科學人144 期,12 頁(2014)
73.洪在明譯,古老宇宙餵養年輕星系,科學人144 期,16 頁(2014)
74.洪在明譯,升起地球防護罩,科學人144 期,20 頁(2014)
75.洪在明譯,交通阻塞促使都市形成,科學人145 期,18 頁(2014)
76.洪在明譯,芡糊是液體還是固體?,科學人145 期,20 頁(2014)
77.洪在明譯,沈船寶藏爭奪戰,科學人146 期,20 頁(2014)
78.洪在明譯,孤獨的矮行星,科學人146 期,24 頁(2014)
79.洪在明譯,重啟黑洞爭端,科學人147 期,14 頁(2014)
80.洪在明譯,看見暴脹宇宙,科學人148 期,14 頁(2014)
81.洪在明譯,克卜勒望遠鏡未死,科學人148 期,18 頁(2014)
82.洪在明譯,土衛六上起波浪,科學人149 期,22 頁(2014)
83.洪在明譯,命運多舛的核融合,科學人149 期,24 頁(2014)
84.洪在明譯,暗物質沒那麼暗了,科學人150 期,33 頁(2014)
85.洪在明譯,打個噴嚏,口水飛多遠,科學人150 期,33 頁(2014)
86.洪在明譯,土星第63 顆衛星,科學人150 期,34 頁(2014)
87.洪在明譯,超對稱粒子的悄悄話,科學人152 期,14 頁(2014)
88.洪在明譯,創生之柱,破壞之源,科學人152 期,15 頁(2014)
89.洪在明譯,杜絕太陽系移民的「移民官」,科學人153 期,28 頁(2014)
90.洪在明譯,在空中翱翔的球,科學人154 期,22 頁(2014)
91.洪在明譯,觀看大氣中的粒子雨,科學人154 期,26 頁(2015)
92.洪在明譯,太空夢再次升空,科學人155 期,20 頁(2015)
93.洪在明譯,與小行星共舞,科學人156 期,12 頁(2015)
94.洪在明譯,第四類微中子仍只是理論,科學人156 期,15 頁(2015)
95.洪在明譯,塵埃中見行星,科學人156 期,20 頁(2015)
96.洪在明譯,衛星軌道,絕對機密,科學人157 期,20 頁(2015)
97.洪在明譯,數學天份攸關事業成就?科學人157 期,21 頁(2015)
98.洪在明譯,圓形軌道藏生機,科學人158 期,16 頁(2015)
99.洪在明譯,傳信者號的豐功偉業,科學人158 期,18 頁(2015)
100.洪在明譯,星光寂寥的星系,科學人159 期,16 頁(2015)
101.洪在明譯,粒子加速器再登場,科學人159 期,20 頁(2015)
102.洪在明譯,「小太陽」旁邊找行星,科學人160 期,18 頁(2015)
103.洪在明譯,暗物質現蹤?科學人161 期,16 頁(2015)
104.洪在明譯,火星登陸器,落海!科學人161 期,21 頁(2015)
105.洪在明譯,大型望遠鏡的漫漫長路,科學人162 期,29 頁(2015)
106.洪在明譯,氣體動力閃電戰,科學人162 期,33 頁(2015)
107.洪在明譯,「歐羅巴」棕色海鹽?科學人163 期,20 頁(2015)
108.洪在明譯,太陽系磁場最弱的地方,科學人163 期,21 頁(2015)
109.洪在明譯,太陽是星際扒手,科學人164 期,23 頁(2015)
110.洪在明譯,相對論開枝散葉,科學人164 期,62 頁(2015)
111.洪在明譯,五個夸克在一起,科學人165 期,28 頁(2015)
112.洪在明譯,尋找「失敗的超新星」,科學人166 期,26 頁(2015)
113.洪在明譯,大霹靂粒子餘暉,科學人167 期,20 頁(2016)