C
Chau-Hwang Lee
Researcher at Academia Sinica
Publications - 119
Citations - 3163
Chau-Hwang Lee is an academic researcher from Academia Sinica. The author has contributed to research in topics: Laser & Microscopy. The author has an hindex of 29, co-authored 119 publications receiving 2790 citations. Previous affiliations of Chau-Hwang Lee include National Yang-Ming University & National Taiwan University.
Papers
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Journal ArticleDOI
Precision Measurement of the Helium Flux in Primary Cosmic Rays of Rigidities 1.9 GV to 3 TV with the Alpha Magnetic Spectrometer on the International Space Station
M. Aguilar,D. Aisa,Behcet Alpat,A. Alvino,G. Ambrosi,K. Andeen,Luísa Arruda,N. Attig,Philipp Azzarello,A. Bachlechner,Fernando Barão,A. Barrau,L. Barrin,A. Bartoloni,L. Basara,Markus Battarbee,Roberto Battiston,Roberto Battiston,J. Bazo,U. Becker,M. Behlmann,B. Beischer,J. Berdugo,B. Bertucci,Veronica Bindi,S. Bizzaglia,M. Bizzarri,G. Boella,G. Boella,W. De Boer,K. Bollweg,V. Bonnivard,B. Borgia,S. Borsini,Matteo Boschini,M. Bourquin,J. D. Burger,Franck Cadoux,X. D. Cai,M. Capell,S. Caroff,J. Casaus,G. Castellini,I. Cernuda,D. Cerreta,F. Cervelli,M. J. Chae,Hsiang Szu Chang,A. I. Chen,M. Chen,H. S. Chen,S. Chen,Lin Cheng,H. Y. Chou,E. Choumilov,V. Choutko,C. H. Chung,C. Clark,R. Clavero,G. Coignet,C. Consolandi,Andrea Contin,Claudio Corti,E. Gil,E. Gil,B. Coste,W. Creus,M. Crispoltoni,Z. Cui,Yaomin Dai,C. Delgado,S. Della Torre,M. B. Demirköz,Laurent Derome,S. Di Falco,L. Di Masso,F. Dimiccoli,Carlos Díaz,P. von Doetinchem,F. Donnini,M. Duranti,D. D'Urso,A. Egorov,A. Eline,J. Eppling,T. Eronen,Y. Fan,Y. Fan,L. Farnesini,J. Feng,J. Feng,J. Feng,E. Fiandrini,A. Fiasson,E. Finch,Peter H. Fisher,V. Formato,Yu. Galaktionov,G. Gallucci,Bruce Rafael Mellado Garcia,R. J. García-López,Corrado Gargiulo,Henning Gast,I. Gebauer,Massimo Gervasi,Massimo Gervasi,A. Ghelfi,F. Giovacchini,P. Goglov,J. Gong,Corinne Goy,Varlen Grabski,D. Grandi,M. Graziani,C. Guandalini,I. Guerri,H. Guo,D. Haas,D. Haas,M. Habiby,Sadakazu Haino,C. Han,Z. H. He,Matthias Heil,J. Hoffman,J. Hoffman,Horngming Hsieh,Zhiqi Huang,Changgi Huh,M. Incagli,Maria Ionica,Y. Jang,H. Jinchi,K. Kanishev,K. Kanishev,N. Kim,Shinhong Kim,T. Kirn,A. Korkmaz,R. Kossakowski,O. Kounina,Andrei Kounine,V. Koutsenko,S. Krafczyk,G. La Vacca,Elisa Laudi,Elisa Laudi,G. Laurenti,I. Lazzizzera,A. Lebedev,Hyun Lee,Chau-Hwang Lee,C. Leluc,Haifeng Li,Haifeng Li,Ju Li,Ju Li,Qiang Li,Xinxin Li,Wei Li,Yongyao Li,Yongyao Li,Z. H. Li,S. Lim,Chung-Cherng Lin,P. Lipari,Thomas Lippert,Dong Liu,Hengchang Liu,M. Lolli,Teimuraz Lomtadze,Miaoran Lu,S. Q. Lu,S. Q. Lu,K. Luebelsmeyer,F. Luo,Z. Luo,S. S. Lv,R. D. Majka,C. Mañá,J. C. Marin,Tim Martin,G. Martinez,N. Masi,David Maurin,Arturo Alejandro Menchaca-Rocha,Q. Meng,C. Mo,Luca Morescalchi,P. Mott,M. Müller,T. J. N. Nelson,J. Q. Ni,N. Nikonov,F. Nozzoli,P. Nunes,A. Obermeier,A. Oliva,M. Orcinha,F. Palmonari,C. Palomares,M. Paniccia,A. Papi,M. Pauluzzi,E. Pedreschi,S. Pensotti,S. Pensotti,R. Pereira,N. Picot-Clemente,Fabrizio Giulio Luca Pilo,A. Piluso,C. Pizzolotto,V. Plyaskin,M. Pohl,V. Poireau,Antje Putze,L. Qu,M. Qi,Xubo Qin,Z. Qu,Z. Qu,T. Räihä,Pier-Giorgio Rancoita,D. Rapin,S. Ricol,I. Rodríguez,S. Rosier-Lees,A. Rozhkov,Davide Rozza,Roald Z. Sagdeev,J. Sandweiss,P. Saouter,S. Schael,S. J. Schmidt,A. Von Dratzig,G. Schwering,G. Scolieri,S. Seo,S. Shan,H. Shan,Yun Shi,T. Siedenburg,Dong-Chul Son,J. W. Song,F. Spada,F. Spinella,Wei Sun,H. Sun,Mauro Tacconi,Mauro Tacconi,P. Tang,W. Tang,Zhixiang Tang,L. Tao,D. Tescaro,C. Ting,Samuel C.C. Ting,Nicola Tomassetti,J. J. Torsti,C. Türkoğlu,T. Urban,V. Vagelli,E. Valente,C. Vannini,Eino Valtonen,S. S. Vaurynovich,M. Vecchi,Mayda Velasco,P. Vialle,V. Vitale,S. Vitillo,Q. L. Wang,Naihua Wang,S. Wang,Xiaoqun Wang,Zheng Wang,Z. L. Weng,K. Whitman,J. Wienkenhöver,M. Willenbrock,H. Wu,Xin Wu,X. Xia,M. Xie,M. Xie,S. Xie,Q. Xiong,Ningsheng Xu,W. Xu,Q. Yan,J. Yang,Mingming Yang,Yang Yang,H. Ye,H. Yi,Y. J. Yu,Z. Q. Yu,S. Zeissler,Chuanguo Zhang,J. H. Zhang,M. T. Zhang,S. Zhang,S. Zhang,Shihao Zhang,X. B. Zhang,Zhijun Zhang,Z. M. Zheng,H. L. Zhuang,Valery Zhukov,Antonino Zichichi,N. Zimmermann,Paolo Zuccon +311 more
TL;DR: The detailed variation with rigidity of the helium flux spectral index is presented for the first time and the spectral index progressively hardens at rigidities larger than 100 GV.
Journal ArticleDOI
Cell refractive index for cell biology and disease diagnosis: past, present and future
P. Y. Liu,P. Y. Liu,Lip Ket Chin,Wee Ser,H. F. Chen,Chao Mao Hsieh,Chau-Hwang Lee,Kung-Bin Sung,T. C. Ayi,Peng Huat Yap,Bo Liedberg,Kuan Wang,Kuan Wang,Tarik Bourouina,Yamin Leprince-Wang +14 more
TL;DR: An overview of cell refractive index models and measurement techniques including microfluidic chip-based techniques for the last 50 years are provided, the applications and significance of cellRefractive index in cell biology, hematology, and pathology are presented, and future research trends in the field are discussed.
Journal ArticleDOI
All-optical measurements of the bending rigidity of lipid-vesicle membranes across structural phase transitions
TL;DR: The dips of bending modulus give precisely the main-transition and pretransition temperatures, which supports the recently proposed chain-melting model of Pretransition.
Journal ArticleDOI
Drug testing and flow cytometry analysis on a large number of uniform sized tumor spheroids using a microfluidic device.
TL;DR: Benefits of flow cytometry and microfluidics to perform drug testing and analysis on a large number of uniform sized tumor spheroids and the experimental results suggest the cell culture format and spheroid size play critical roles in drug responses, and also demonstrate the advantages of bridging the two techniques in pharmaceutical drug screening applications.
Journal ArticleDOI
Noninterferometric differential confocal microscopy with 2-nm depth resolution
TL;DR: In this paper, a differential confocal technique for surface imaging with depth resolution as great as 2 nm is presented. But it uses no interferometric effects, it offers large open-loop dynamic range and is compatible with fluorescence microscopy.