林文欽
Wen-Chin Lin
Professor Dr.
Department of Physics, National
Taiwan Normal University
88 Sec. 4, Ting-Chou Rd.,
Taipei116, Taiwan
TEL: +886-2-77346086 (Office)
FAX: +886-2-29326408
E-mail: wclin@ntnu.edu.tw
Birth Date: July 20, 1976
Nationality: Taiwan
Marital Status: Married
Qualifications:
Bachelor of Science in Physics, National Taiwan
University (1994. 9 – 1998. 6)
Master Degree in Physics, National Taiwan
University (1998. 9 – 2000. 6)
Thesis: Growth, crystalline structure and
magnetism of CoxNi1-x/Cu(100)
alloy films
Advisor: Prof.
Minn-Tsong Lin
Ph.D. in
Physics, National Taiwan University (2002. 9 – 2006. 1)
Dissertation:
Growth, Crystalline Structure and
Magnetism of Low-Dimensional Systems: From Ultrathin Films to Self-Aligned Nanoparticles
Advisor: Prof. Minn-Tsong Lin, and Dr.
Ker-Jar Song
Career:
(1) Research assistant,
Institute of Atomic and Molecular Sciences, Academia Sinica,
Taipei, Taiwan (2001. 1 - 2006. 1)
(Surface Science Lab. in IAMS
& Nanomagnetism Lab. in NTU)
(2) Post doc., Institute of Atomic and Molecular Sciences, Academia Sinica, Taipei, Taiwan (2006. 2 - 2006. 8)
(Nanomagnetism
Lab. in NTU)
(3) Post doc., Max-Plank Institute for microstructures, Halle, Germany
(2006. 7 - 2007. 6)
((a)
SP-STM Lab. & (b) Time, Energy, and Spin-resolved multiphoton photoemission
Lab.)
(4) Assistant Professor, Department of Physics, National Taiwan Normal
University (2007. 8 – 2011.7)
(5) Associate Professor, Department of Physics, National Taiwan Normal
University (2011. 8 – 2014.7)
(6) Full Professor, Department of Physics, National Taiwan Normal
University (2014. 8 – to now)
Research Fields:
1.
Surface Science (UHV system, STM)
2. Magnetism (MOKE,
Spinpolarized-STM, Spin-SEM)
3.
Nanomaterials (ex: self-assembled nanoparticles)
4. Time,
energy and spin-resolved multi-photon Photoemission
(fs-laser, energy analyzer, spin-detector)
5.
Photoemission studies in NSRRC (SPEM, PEEM)
International Research Experience:
1. Oak
Ridge National Laboratory, Tennessee, America (2005. 7 - 2005. 9)
Topic: Magnetic Inter-layer coupling
between nanoparticle assemblies
2. Center for
nanophase materials sciences, Oak Ridge National
Laboratory, Tennessee, USA (2006. 5)
Topic: Magnetic Domain Imaging on
Self-Aligned Nanopaticle Assemblies and Nanowires
using SEM with Polarization Analysis
3. Visiting Professor, Department of Electrical
Engineering, UCLA (2015. 7 – 2016. 2)
Publication List
~ 2016
63.
Voltage-induced reversible and irreversible changes in the magnetic coercivity of Co/ZnO heterostructure
C.C. Hsu, P. C. Chang , V. R. Mudinepalli, C. J. Tsai, T. C.
Hsieh, F. Y. Lo*, W. C. Lin*
J. Appl. Phys. 119,
93905 (2016).
62. Annealing-Induced
Alloy Formation in Pd/Fe/Si(111)
for Hydrogen Sensing
Venkata Ramana
Mudinepalli, Cheng-Jui
Tsai, Ying-Chin Chuang, N. Plusnin, Wen-Chin Lin*
Appl.
Surf. Sci. 366, 38-45 (2016).
61. Hydrogen absorption-induced reversible change in magnetic
properties of Co-Pd alloy films
W. C.
Lin*, B. Y. Wang*, H. Y. Huang, C. J.
Tsai, V. R. Mudinepalli
J. Alloys Comp. 661, 20-26
(2016).
~ 2015
60. Surface morphology,
magnetism and chemical state of Fe coverage on MoS2 Substrate
Hung-Chang Hsu, Chii-Bin Wu*, Kai-Lin
Hsu, Po-Chun Chang, Venkata Ramana
Mudinepalli, Tsu-Yi Fu, and
Wen-Chin Lin*
Appl. Surf. Sci. 357, 551-557 (2015).
59. Nano-patterning of magnetic
domain: Fe coverage on self-assembled alumina nanostructure
Chii-Bin Wu*, Bo-Yao Wang, Wen-Chin Lin, Zheng Gai, and Minn-Tsong Lin*
Applied Physics Express 8, 93002 (2015).
58.
Thermal evolution of Fe on Ge(111)-c(2×8) surface
and the effect of (√3×√3)Ag-- Ge buffer layer Applied Surface Science
Hung-Chang Hsu, Ming-Kuan Jhou, Wen-Chin Lin, Tsu-Yi Fu*
Appl. Surf. Sci. 355, 778-783 (2015).
57. Effects of surface oxidation on the exchange-bias properties of the single-crystal antiferromagnetic/ferromagnetic junction Mn/Co/Cu(001)
M. Caminale, R. Moroni, P. Torelli,
G. Panaccione, W.
C. Lin, M. Canepa, L. Mattera,
and F. Bisio
Phys. Rev. B 91, 094435 (2015).
56.
Magnetic anisotropic properties of Pd/Co/Pd trilayer films studied by
x-ray absorption spectroscopy and magnetic circular dichroism
K. Saravanan, C.-H. Kao, Y.-C. Shao, Y.-F. Wang, B.-Y. Wang*, H. T. Wang,
C.-J. Tsai, W.-C. Lin, C.-W.
Pao, H.-M.
Tsai, L.-Y. Jang, H. J. Lin, J.-F.
Lee and W.-F. Pong*
RSC
Advances 5, 19014–19019 (2015).
55. Modulation of Magnetic
Coercivity in Ni Thin Films by Reversible Control of
Strain
W. C. Lin*, C.
W. Huang, C. J. Tsai, Y. C. Ting, F. Y. Lo, M. Y. Chern
J. Mag. Mag. Mat. 381,
446–450 (2015).
54. Hydrogen Mediated Long-Range Magnetic Ordering in Pd-rich Alloy film
W. C.
Lin*, C. J. Tsai, H. Y. Huang, B. Y. Wang*, V. R. Mudinepalli, and Hsiang-Chih Chiu
Appl.
Phys. Lett. 106,
12404 (2015).
~ 2014
53. Critical
hydrogenation effect on magnetic coercivity of perpendicularly
magnetized Co/Pd multilayer nanostructures
W. C. Lin*, Cheng-Jui, Tsai, Xin-Ming Liu, and Adekunle
O. Adeyeye*
J. Appl. Phys. 116, 073904
(2014).
52. Growth, thermal stability and magnetism of Ni
ultrathin films on O-3x3/W(111) surface
Cheng-Jui Tsai, Kun-Jen
Hsueh, N. Plusnin, Chien-Cheng
Kuo, Wen-Chin Lin*
Appl. Surf. Sci. 313, 166-171
(2014).
51. Voltage-Induced Reversible Changes in the Magnetic Coercivity
of Fe/ZnO Heterostructures
W. C.
Lin*, P.-C. Chang, C.-J. Tsai, T.-C. Shieh, and F.-Y. Lo*
Appl.
Phys. Lett. 104, 062411 (2014).
50.
Controllable sealing
of leaky alumina films on NiAl(100) surface by catalytic oxidation
K. T. Liu, J. W. Chen, Y. W. Liao, W. C. Lin, C. B. Wu, C. C. Kuo, M.-T. Lin, and K.-J. Song*
J. Appl. Phys. 115, 044310 (2014).
49. Thermal Stability and Magnetism of Co and Fe
Ultrathin Films on Pd/W{112}
Faceted Surface
Chieh-Chen Chiu, Wen-Chin
Lin*, and Ker-Jar Song*
J. Appl. Phys. 115, 013905 (2014).
48. Soft perpendicular magnetization and spin reorientation transition of Fe
films on NiAl(001)
Yin-Chih
Lin, Chii-Bin Wu, Wei-Shu Li, Ying-Chin Chen,
Zheng-Yuan Huang, Wen-Chin Lin*
and Minn-Tsong Lin*
Appl. Phys. Exp. 7, 023005
(2014).
47. Reentrant surface anisotropy
in the antiferromagnetic/ferromagnetic bilayer Mn/Co/Cu(001)
M. Caminale,
R. Moroni*, P. Torelli,
W. C. Lin, M. Canepa, L. Mattera, and F. Bisio
Phys. Rev. Lett., 112, 037201 (2014).
~ 2013
46. Magnetism Modulation of Fe/ZnO
Heterostructure by Interface Oxidation
Wen-Chin Lin*, Po-Chun
Chang, Cheng-Jui Tsai, Tsung-Chun
Hsieh, and Fang-Yuh Lo*
Appl. Phys. Lett. 103, 212405 (2013).
45. Oxygen Surfactant-Assisted
Growth and Dewetting of Co Films on O-3x3/W(111)
Kun-Jen Hsueh, Cheng-Jui Tsai, Shih-Yu Wu, Hsin-Lei
Chou, Francesco Bisio, Chien-Cheng
Kuo*, and Wen-Chin
Lin*
J. Appl. Phys. 114, 203907 (2013).
44. Enhanced
perpendicular magnetic anisotropy in Fe/Mn bilayers
by incorporating ultrathin ferromagnetic underlayer
through magnetic proximity effect
Bo-Yao Wang
, Chieh-Chen Chiu , Wen-Chin Lin*, Minn-Tsong Lin*
Appl. Phys. Lett. 103, 042407 (2013).
43. Modulation of magnetic
anisotropy in Fe/Si(111) thin films through interface
property
Wen-Chin Lin*, Tsung-Ying
Ho, Chiao-Sung Chi, Cheng-Jui
Tsai
Thin Solid Films
542,355 (2013).
42. Hydrogenation
induced reversible modulation of perpendicular magnetic coercivity
in Pd/Co/Pd films
Wen-Chin Lin*, Cheng-Jui Tsai, Bo-Yao Wang, Chao-Hung Kao, and Way-Faung Pong
Appl. Phys. Lett. 102, 252404 (2013).
41. Hydrogen adsorption promoted perpendicular magnetic anisotropy in
nanostructured Fe coverage on Pd/W{112}
faceting surface
Chieh-Chen Chiu, Wen-Chin
Lin*, Yu-Chen Yeh, and Ker-Jar Song*
Appl. Phys. Lett. 102, 242403 (2013).
40. Hydrogen absorption induced reversible
effect on magneto-optical property of Pd/Fe, Pd/Co and Pd/Ni bilayers
Wen-Chin Lin*, Chiao-Sung Chi, Tsung-Ying Ho, Cheng-Jui Tsai
Thin Solid Films, 531, 487 (2013).
39. Good Control of Spatial and Size Ordering of Fe
Nanoparticles by Xe-Gas-Assisted Growth with a
Seeding Layer
Chien-Cheng Kuo*, Wen-Chin
Lin*, Hung-Yu Chang, Ker-Jar Song
Appl. Phys. Exp. 6, 25501 (2013).
~ 2012
38. Hydrogenation-induced change of magneto optical Kerr effect
in Pd/Fe bilayers
Wen-Chin Lin*, Chiao-Sung Chi, Tsung-Ying Ho, Cheng-Jui Tsai,
Fang-Yuh Lo, Huan-Chia Chuang, Ming-Yau Chern
J. Appl. Phys. 112,
063914 (2012).
37. Uniaxial
magnetic anisotropy in Pd/Fe bilayers on Al2O3 (0001) induced by oblique
deposition
Chiao-Sung Chi,
Bo-Yao Wang, Way-Faung Pong, Tsung-Ying
Ho, Cheng-Jui Tsai,
Fang-Yuh Lo, Ming-Yau Chern, and Wen-Chin
Lin*
J. Appl. Phys. 111, 123918 (2012).
36. Flipping magnetization induced by noncollinear ferromagnetic-antiferromagnetic exchange coupling
B. Y. Wang, C. H. Chuang, S. S.
Wong, J. J. Chiou, W. C. Lin, Y. L. Chan, D. H. Wei, and Minn-Tsong Lin*
Phys.
Rev. B, 85 094412 (2012).
~ 2011
35. Canted
magnetization in Fe thin films on highly oriented pyrolytic graphite
Wen-Chin Lin*, Fang-Yuh Lo, Ya-Yun
Huang, Chih-Hsiung Wang, and Ming-Yau
Chern
J. Appl. Phys. 110, 083911 (2011).
34. Stable Canted Magnetization in Co Thin Films
on Highly Oriented Pyrolytic Graphite Induced by Template Defects
Wen-Chin Lin*, Ya-Yun Huang, Tsung-Ying
Ho, and Chih-Hsiung Wang
Appl. Phys. Lett. 99,
172502 (2011).
33. Combination of exchange-bias and
long-range interlayer couplings in Fe/fct-Mn/Co trilayers
Chih-Hsiung Wang, Ya-Yun
Huang, and Wen-Chin Lin*
J. Appl. Phys.
109, 103908 (2011).
32. Driving magnetization perpendicular by
antiferromagnetic-ferromagnetic exchange coupling
B.Y. Wang, N.Y. Jih, W.C. Lin, C. H. Chuang, P.J. Hsu, C.W.
Peng, Y.C. Yeh, Y. L. Chan, D.H. Wei, W.C. Chiang, and Minn-Tsong Lin*
Phys. Rev. B 83, 104417
(2011)
31. Growth
and Magnetism of Low-temperature Deposited Fe/Si(111)
Films as an Intermediate Layer for Suppression of Silicide Formation
Wen-Ting Tu, Chih-Hsiung Wang, Ya-Yun Huang, and Wen-Chin
Lin*
J. Appl. Phys. 109, 023908 (2011).
~ 2010
30. Spin-polarized
multi-photon photoemission and surface electronic structure of Cu(001)
Wen-Chin Lin, A. Winkelmann*, C-T Chiang, F. Bisio and J. Kirschner
New J. Phys. 12, 083022 (2010).
29. Coverage Dependence of Magnetic Domain Structure and Magnetic Anisotropy in Supported Fe Nanoparticles on Al2O3/NiAl(100)
Wen-Chin Lin*, C. B. Wu, P. J. Hsu, H. Y. Yen, Zheng Gai,
Lan Gao, and Jian Shen, Minn-Tsong Lin
J. Appl. Phys. 108, 034312 (2010).
28. Nucleation of Fe Nanoparticle Chains and Nanostripes
on Au(111) Stepped Surface
Wen-Chin Lin, H-Y
Chang, Y-Y Lin, Y-C Hu, C-H Hsu and Chien-Cheng Kuo*
J. Appl. Phys. 107, 014301 (2010).
27. Manipulated nucleation of Fe
nanostructures on Au(111) with combined growth methods
Wen-Chin Lin, H-Y
Chang, Y-C Hu, Y-Y Lin, C-H Hsu and Chien-Cheng Kuo*
Nanotechnology 21, 015606 (2010) .
~ 2009
26. Nanoscale magnetic configurations of
supported Fe nanoparticle assemblies studied by scanning electron microscopy
with spin analysis
W. C.Lin*, Zheng Gai, Lan Gao, Jian Shen, Pin-Jui Hsu,
Hong-Yu Yen, and Minn-Tsong Lin*
Phys. Rev.
B 80, 24407 (2009).
25. Fabrication of Fe Nanoparticle Assemblies on Au(111)
with Xe Buffer Layer and Low Temperature Growth
Wen-Chin Lin, Huang-Yu Chang, Yu-Tsen Hu, and Chien-Cheng Kuo*
Jap. J. Appl. Phys. 48, 08JB07 (2009).
24.
Band structure effects in surface Second
Harmonic Generation: Cu(001)
F. Bisio*, A. Winkelmann, W. C.
Lin, C.-T. Chiang, M. Nyvlt, H. Petek and J. Kirschner
Phys. Rev. B 80, 125432 (2009)
23. Dimensionality control and magnetism of Fe
on nano-patterned Au(111)
surface
Wen-Chin Lin, Huang-Yu Chang, Yu-Tsen Hu, and Chien-Cheng Kuo*
IEEE Mag. Tran. 45,
4037 (2009)
22. Resonant Coherent three-photon photoemission from Cu(001)
Aimo Winkelmann*, Wen-Chin Lin, Cheng-Tien Chiang et al.
Phys. Rev. B 80, 155128 (2009)
~ 2008
21. Interferometric control of spin-polarized electron populations at a metal surface observed by multi-photon photoemission
Aimo Winkelmann*, Wen-Chin
Lin, Francesco Bisio, Hrvoje Petek, and Jürgen Kirschner
Phys. Rev. Lett. 100, 206601 (2008).
20. Electronically Patterning through One-Dimensional Nanostripes with High Density of States on Single-crystalline Al2O3 Domain
P. J. Hsu, C. B. Wu, H. Y. Yen, S. S. Wong, W. C.Lin, and Minn-Tsong Lin*
Appl. Phys. Lett. 93, 143104 (2008).
~
2007
19. Enhanced exchange bias coupling in
Fe/FexMn1-x bilayer by reducing the vertical lattice
constants
W. C. Lin, B.
Y. Wang, T. Y. Chen, L. C. Lin, Y. W. Liao, W. Pan, N. Y. Jih,
Ker-Jar Song, Minn-Tsong Lin*,
Appl. Phys. Lett. 90, 52502
(2007).
18. Comparison of the crystalline
structure, morphology and magnetic properties for γ-phase Mn/Cu3Au(100) ultrathin films by varying the growth
temperature
W. C. Lin, T. Y. Chen, L. C. Lin, B. Y. Wang, Y. W. Liao, Ker-Jar Song,
Minn-Tsong Lin*, Phys. Rev. B 75, 54419 (2007).
17. Ultrafast optical spin injection into image-potential states of Cu(001)
A. Winkelmann*, F. Bisio, R. Ocaña, W.C. Lin, M. Nývlt,
H. Petek
and J. Kirschner
Phys. Rev. Lett. 98, 226601 (2007).
~
2006
16. Enhanced Curie Temperatures in Fe
and Co magnetic nanoparticle assembly on single-crystalline Al2O3/NiAl(100)
by capping of normal metal
W. C. Lin, P. C. Huang, Ker-Jar Song, Minn-Tsong Lin,
Appl.
Phys. Lett. 88, 153117 (2006).
15. Depth-dependent fct
to fcc strain relaxation in CoxNi1-x/Cu3Au(100)
alloy films
Bo-Yao Wang, Wen-Chin Lin, Yu-Wen Liao,
Ker-Jar Song, Minn-Tsong Lin,
Surf. Sci. 600, 4517-4526 (2006).
14. Controlled
Growth of Co nanoparticle assembly on nano-structured
template Al2O3/NiAl(100)
Wen-Chin Lin, Shen-Shing
Wong, Po-Chun Huang, Chii-Bin Wu, Bin-Rui Xu, Cheng-Tien Chiang, Hong-Yu Yen, Minn-Tsong
Lin,
Appl. Phys. Lett. 89, 153111 (2006).
13. Structural phase diagram,
magnetism, and exchange-biased behavior of Fe films on FexMn1-x/Cu(001)
Wei
Pan, Wen-Chin Lin, N-Y Jih, Y-C Chen, C-H Chuang, C-C Kuo,
Minn-Tsong Lin,
Phys. Rev. B 74, 224430
(2006)
~
2005
12. Self-aligned
Co nanoparticle chains supported by single-crystalline Al2O3
/NiAl(100) template
Wen-Chin Lin, Chien-Cheng Kuo,
Meng-Fan Luo, Ker-Jar Song, Minn-Tsong Lin
Appl. Phys. Lett. 86, 043105 (2005)
11. Effect of magnetic alloying on magnetic
anisotropy in ultrathin fcc
Ni-like Films
C.
C. Kuo, W.
C. Lin, S. F. Chuang, and Minn-Tsong Lin
Surf. Sci. 576, 76 (2005).
10. Growth, structure and magnetism of γ-phase
Mn ultrathin Films on Cu3Au(100)
W.
C. Lin, L. C. Lin, T. Y. Chen, B. Y. Wang, Ker-Jar Song, Minn-Tsong Lin
J. Appl. Phys. 97, 10K112 (2005).
9. Alloying and strain relaxation effects on spin-reorientation transitions in CoxNi1-x/Cu3Au(100) ultrathin films
W. C. Lin, B.Y. Wang, Y.W. Liao, Ker-Jar Song, Minn-Tsong Lin
Phys. Rev. B 71, 184413 (2005)
~
2003
8. Self-Limiting Size
Distribution of Supported Cobalt Nanoclusters at Room Temperature
S. Gwo,
C.-P. Chou, C.-L. Wu, Y. J Ye,
S. J. Tsai, W. C. Lin, and Minn-Tsong Lin
Phys. Rev. Lett. 90, 185506 (2003)
~
2002
7. Dramatic depression of Curie
temperature for magnetic Co/Cu(100) ultrathin films
upon deposition at elevated temperature
C. C. Kuo,
C. L. Chiu, W. C. Lin, and Minn-Tsong Lin,
Surf. Sci. 520, 121 (2002)
6. Comparative study of the
d-band filling effect on the magnetic behavior of CoxNi1-x
and FexNi1-x ultrathin films on Cu(100)
C. C. Kuo, S. F.
Chuang, W. Pan, W. C. Lin, and Minn-Tsong Lin,
J. Appl. Phys. 91, 7185 (2002)
5.
Anomalous temperature-driven magnetization switching in CoxNi1-x/Cu(100) binary alloy films
C. C. Kuo,
W. C. Lin, and Minn-Tsong Lin,
J. M. M. M. 239, 298(2002)
~
2001
4. Effect of growth temperature on Curie
temperature of magnetic ultrathin films Co/Cu(100)
C. C. Kuo,
W. C. Lin, C. L. Chiu, H. L.
Huang, and Minn-Tsong
Lin,
J. Appl. Phys. 89, 7153 (2001)
3.
Spin-reorientation transition in magnetic alloy films CoxNi1–x/Cu(100)
W. C. Lin, C. C. Kuo,
C. L. Chiu, and Minn-Tsong
Lin,
J. Appl. Phys. 89, 7139 (2001)
2.
Growth, structure, and magnetism of magnetic ultrathin CoxNi1-x/Cu(100) alloy films
W.
C. Lin, C. C. Kuo,
C. L. Chiu, and Minn-Tsong Lin,
Surf. Sci. 478, 9 (2001)
~
2000
1. Critical evolution of
spin-reorientation transition in magnetic CoxNi1-x/Cu(100) films upon precise variation of d-band filling
Minn-Tsong Lin, W. C. Lin, C. C. Kuo,
and C. L. Chiu,
Phys. Rev. B 62, 14628 (2000)
Awards:
2000: Best master degree
thesis award
College
of Science, National Taiwan University
2004: First prize award of student oral presentation
Tenth
Users’ Meeting and Work Shop of NSRRC, Taiwan
2006: Best dissertation
award
College
of Science, National Taiwan University
2006: Magnetism prize – Best dissertation award
Association of Magnetic
Technique, Taiwan
2006: Materials
Characterization and Analysis – Silver Medal
TSMC Outstanding Student Research Award