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The First RIKEN-NCTU Symposium on Physical and Chemical Sciences

NCTU-RIKEN Joint Research Laboratory  [English]


描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: 描述: Leiden008_editedJuhn-Jong (JJ) LIN
Institute of Physics and Department of Electrophysics

College of Science, National Chiao Tung University
1001 Ta Hsueh Road
, Hsinchu 30010, Taiwan

Phone: +886-3-5731652; Fax: +886-3-5720728

Office: Science Building 3, Room SC410  (NCTU campus map)


Curriculum Vitae    Group Members


Research interests:

Experimental low-temperature physics

Quantum-interference and decoherence in mesoscopic and nanoscale structures

Kondo physics: two-impurity Kondo effect, two-channel Kondo effect, quantum phase transition

Noise and two-level systems in nanodevices



Kondo Physics    Quantum Transport & Dephasing    Nanophysics    Materials Physics    Superconductivity

Topical Review Articles

Recent Experimental studies of electron dephasing in metal and semiconductor mesoscopic structures

J. J. Lin and J. P. Bird, JPCM 14, R501 (2002). (96 pages)

Electronic conduction properties of indium tin oxide: Single-particle and many-body transport  [arXiv: 1702.07845]

J. J. Lin and Z. Q. Li, JPCM 26, 343201 (2014). (> 7000 downloads)

Selected Papers

Gate tunable spin-orbit coupling and weak antilocalization effect in an epitaxial La2/3Sr1/3MnO3 thin film  [arXiv: 1708.02338]

S. P. Chiu, M. Yamanouchi, T. Oyamada, H. Ohta, and J. J. Lin, Phys. Rev. B 96, 085143 (2017).

Probing nanocrystalline grain dynamics in nanodevices  [arXiv: 1706.07887]

S. S. Yeh, W. Y. Chang, and J. J. Lin, Science Advances 3, e1700135 (2017).

Ultralow 1/f noise in a heterostructure of superconducting epitaxial cobalt-disilicide thin film on silicon  [arXiv: 1702.05566]

S. P. Chiu, S. S. Yeh, C. J. Chiou, Y. C. Chou, J. J. Lin, and C. C. Tsuei, ACS Nano 11, 516 (2017).

Stick-slip motion of the Wigner solid on liquid helium

D. G. Rees, N. R. Beysengulov, J. J. Lin, and K. Kono, Phys. Rev. Lett. 116, 206801 (2016).

Weak antilocalization in topological insulator Bi2Te3 microflakes

S. P. Chiu and J. J. Lin, Phys. Rev. B 87, 035122 (2013).

Large-scale mesoscopic transport in nanostructured graphene

H. Zhang, J. Lu, W. Shi, Z. Wang, T. Zhang, M. Sun, Y. Zheng, Q. Chen, N. Wang, J. J. Lin, and P. Sheng, Phys. Rev. Lett. 110, 066805 (2013).

Universal conductance fluctuations in indium tin oxide nanowires

P. Y. Yang, L. Y. Wang, Y. W. Hsu, and J. J. Lin, Phys. Rev. B 85, 085423 (2012).

Temporal universal conductance fluctuations in RuO2 nanowires due to mobile defects

A. S. Lien, L. Y. Wang, C. S. Chu, and J. J. Lin, Phys. Rev. B 84, 155432 (2011).

Variable-range-hopping conduction processes in oxygen deficient polycrystalline ZnO films

Y. L. Huang, S. P. Chiu, Z. X. Zhu, Z. Q. Li, and J. J. Lin, J. Appl. Phys. 107, 063715 (2010).

Direct observation of electron dephasing due to inelastic scattering from defects in weakly disordered AuPd wires

Y. L. Zhong, A. Sergeev, C. D. Chen, and J. J. Lin, Phys. Rev. Lett. 104, 206803 (2010).

Spin bottleneck in resonant tunneling through double quantum dots with different Zeeman splittings

S. M. Huang, Y. Tokura, H. Akimoto, K. Kono, J. J. Lin, S. Tarucha, and K. Ono, Phys. Rev. Lett. 104, 136801 (2010).

Two-channel Kondo effects in Al/AlOx/Sc planar tunnel junctions

S. S. Yeh and J. J. Lin, Phys. Rev. B 79, 012411 (2009).

Electrical conduction mechanisms in natively doped ZnO nanowires

S. P. Chiu, Y. H. Lin, and J. J. Lin, Nanotechnology 20, 015203 (2009).

Thermal fluctuation-induced-tunneling conduction through metal nanowire contacts

Y. H. Lin, S. P. Chiu, and J. J. Lin, Nanotechnology 19, 365201 (2008).

Observation of strong electron dephasing in highly disordered Cu93Ge4Au3 thin films

S. M. Huang, T. C. Lee, H. Akimoto, K. Kono, and J. J. Lin, Phys. Rev. Lett. 99, 046601 (2007).

Electrical resistivities and thermopowers of transparent Sn-doped indium oxide films

Z. Q. Li and J. J. Lin, J. Appl. Phys. 96, 5918 (2004).

Saturation of electron dephasing in three-dimensional polycrystalline disordered metals

J. J. Lin and L. Y. Kao, J. Phys.: Condens. Matter 13, L119 (2001).

Giant Hall effect in non-magnetic granular metal films

X. X. Zhang, C. Wen, H. Liu, Z. Q. Li, P. Sheng, and J. J. Lin, Phys. Rev. Lett. 86, 5562 (2001).

Electron-phonon scattering times in bulk crystalline disordered titanium alloys between 3 and 15 K

C. Y. Wu, W. B. Jian, and J. J. Lin, Phys. Rev. B 57, 11232 (1998).

Observation of a linear mean-free-path dependence of the electron-phonon scattering rate in thick AuPd films

Y. L. Zhong and J. J. Lin, Phys. Rev. Lett. 80, 588 (1998).

Disorder dependence of electron-phonon scattering time in bulk Ti1-xAlx alloys

J. J. Lin and C. Y. Wu, Europhys. Lett. 29, 141 (1995).

Weak-localization and Maki-Thompson superconducting fluctuation effects in crystalline disordered Ti-Al-(Sn,Co) alloys at T >Tc

C. Y. Wu and J. J. Lin, Phys. Rev. B 50, 385 (1994).

Superconducting and magnetic behavior in La2-xNaxCuO4

M. A. Subramanian, J. Gopalakrishnan, C. C. Torardi, T. R. Askew, R. B. Flippen, A. W. Sleight, J. J. Lin, and S. J. Poon, Science 240, 495 (1988).

Electron scattering times from weak localization studies of Au-Pd films

J. J. Lin and N. Giordano, Phys. Rev. B 35, 1071 (1987).

Localization and electron-electron interaction effects in thin Au-Pd films and wires

J. J. Lin and N. Giordano, Phys. Rev. B 35, 545 (1987).

Observation of the Nyquist phase-coherent time in thin Au-Pd wires

J. J. Lin and N. Giordano, Phys. Rev. B 33, 1519 (1986).


Laboratory Equipment:

BlueFors Cryogenics LD400 3He-4He Dilution Refrigerator (10 mK, 9 T) [NCTU–RIKEN Joint Research Laboratory]

Omicron Low-Temperature UHV Scanning Probe Microscope (5 K)

Joel JSM-6380 & JSM-7000F Scanning Electron Microscopes + NPGS

Oxford Kelvinox AST-Minisorb He3/He4 Dilution Refrigerator (20 mK, 9 T)

Oxford Heliox He3 Cryostat with Superconducting Magnet (240 mK, 4 T)

Oxford Heliox He3 Cryostat with Superconducting Magnet (300 mK, 2 T)

Oxford SM4000 He4 Cryostat with Superconducting Magnet (1.5 K, 6 T)

DC/RF Sputtering System; Thermal Evaporation System; Electron-Gun Evaporation System

Arc-Melt Furnace

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