Taipei
9 Papers
8 Citations
Taipei is an academic researcher. The author has contributed to research in topics: Magnetic field & Star formation. The author has an hindex of 1, co-authored 1 publications.
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Papers
Understanding star formation in molecular clouds. IV. Column density PDFs from quiescent to massive molecular clouds
Nicola Schneider,Volker Ossenkopf-Okada,S. D. Clarke,Ralf S. Klessen,S. Kabanovic,Todor V. Veltchev,S. Bontemps,Sami Dib,Timea Csengeri,Christoph Federrath,J. Di Francesco,Frédérique Motte,Ph. André,Doris Arzoumanian,James R. Beattie,L. Bonne,P. Didelon,D. Elia,V. Koenyves,Alexei G. Kritsuk,Bilal Ladjelate,Philip C. Myers,Stefano Pezzuto,J. F. Robitaille,A. Roy,Daniel Seifried,Robert Simon,Juan D. Soler,Derek Ward-Thompson,I. Institut,Uni Koeln,Germany Academia Sinica,Institue of Astronomy,Astrophysics,Taipei,Taiwan Institut fuer Theoretische Astrophysik,U. Heidelberg,G. D. O. Physics,University of Sofia,Bulgaria Lab,Univ. Bordeaux,F.Atrio-Barandela Mpa,Heidelberg,G. O. Astronomy,Anu,A. D. O. Physics,Astronomy,U. Victoria,Canada Nrc Herzberg Astronomy,Canada Univers. Grenoble Alpes,F Aim,Cea Saclay,France College of Physics Science,Nao,Tokyo,Japan Asi Space Science Data Center,N. R. Center,Usa INAF-IAPS,Roma,Italy Univ. Central Lancashire,UK Physics Dep.,Cass,Universityof California,San Diego,Usa 17 Iram,7. Avda.DivinaPastora,20 Local,18012 Granada,S. C. F. Astrophysics,Harvard,Smithsonian,Cambridge,MA 02138,USA. +73 more
TL;DR: In this article , the authors present N-PDFs of 29 Galactic regions obtained from Herschel imaging at high angular resolution (18′′), covering diffuse and quiescent clouds, and those showing low-, intermediate-, and high-mass star formation (SF), and characterize the cloud structure using the ∆-variance tool.
Single-crystal epitaxial europium iron garnet films with strain-induced perpendicular magnetic anisotropy: Structural, strain, magnetic, and spin transport properties
Mengxin Guo,C. K. Cheng,Y.C. Liu,C. N. Wu,W. Chen,T. Chen,C. T. Wu,C. H. Hsu,S. Zhou,C. F. Chang,Liu Hao Tjeng,S. F. Lee,Chi-Feng Pai,Min-Ki Hong,J. K. D. O. Physics,National Tsing Hua University,Hsinchu,Taiwan,Graduate Institute of Applied Physics,D. Physics,National Taiwan Normal University,Taipei,M. Solids,Dresden,German,Department of Materials Science,Engineering,M. Division,Taiwan Semiconductor Research Institute,National Applied Research Laboratories,N. Center,Institut fur Ionenstrahlphysik und Materialforschung,Forschungszentrum Dresden-Rossendorf e.V.,I. Physics,A. Sinica +34 more
TL;DR: In this paper , the authors present the results of a study conducted at the Max Planck Institute for Chemical Physics of Solids in Dresden, Germany, with the aim to evaluate the performance of the experiments conducted at National Taiwan University.
Design and simulated performance of calorimetry systems for the ECCE detector at the electron ion collider
F. Bock,Neslihan Becerici Schmidt,P. K. Wang,N. Santiesteban,T. Horn,J. Huang,J. G. Lajoie,C. M. Camacho,J. K. Adkins,Y. Akiba,Areej Albataineh,M. J. Amaryan,Ionut Christian Arsene,C. Ayerbe Gayoso,J. B. Bae,Xinzhan Bai,M. D. Baker,M. Bashkanov,R. Bellwied,Fatiha Benmokhtar,V. V. Berdnikov,Jan C. Bernauer,W. U. Boeglin,M. Borysova,E. J. Brash,P. Brindza,W. J. Briscoe,M. L. Brooks,S. Bueltmann,Masroor H. S. Bukhari,Alexander Bylinkin,R. Capobianco,W. C. Chang,Yongjin Cheon,K. X. Chen,Kai-yu Cheng,M. Chiu,Tatsuya Chujo,Zvi Hirsh Citron,Ethan Cline,E.O. Cohen,Thomas Michael Cormier,Y. Corrales Morales,Chandler W. Cotton,J. Crafts,Christopher Crawford,S. Creekmore,C.Cuevas,J. Cunningham,G. David,Charles Thomas Dean,M. Demarteau,S. Diehl,Norihiro Doshita,R. Dupre,John Matthew Durham,R. Dzhygadlo,Raymond James Ehlers,L. El Fassi,Alex R. Emmert,Rolf Ent,C. Fanelli,R. Fatemi,S. Fegan,M. Finger,J. E. Frantz,Manfred Friedman,Ivica Friščić,D. R. Gangadharan,S. Gardner,K. Gates,F. J.M. Geurts,R. Gilman,D. I. Glazier,E. Glimos,Y. Goto,N. Grau,Stacie Greene,A. Q. Guo,L. Guo,Sung-Kee Ha,J. S. Haggerty,T. B. Hayward,X. C. He,Or Hen,Douglas Higinbotham,M. Hoballah,A. Hoghmrtsyan,P. Hsu,G. M. Huber,Alek Hutson,Kyung-Yup Hwang,C. E. Hyde,M. Inaba,T. Iwata,H. S. Jo,K. S. Joo,N. Kalantarians,G. Kalicy,Kiyoshi Kawade,S. Kay,A. Kim,B. Kim,C. O. Kim,M. Kim,Y. Kim,E. Kistenev,V. G. Klimenko,S. Ko,I. Korover,Wolfgang Korsch,Georgios Krintiras,S. E. Kuhn,C.M. Kuo,T. Kutz,David J. Lawrence,S. Lebedev,H. Lee,J. S. H. Lee,S. W. Lee,Y. Lee,W. Li,W. Li,X. Li,Y. F. Liang,S. Lim,C. Lin,Da Xien Lin,K. Liu,M. X. Liu,K. Livingston,Nilanga Liyanage,W. J. Llope,Constantinos Loizides,E. Long,R Rongguo Lu,Z. Lu,W. A. Lynch,Swarna P. Mantry,D. Marchand,Michal Marcisovsky,Christina Markert,Pete Markowitz,H. Marukyan,P. L. McGaughey,M. Mihovilovic,Ross Milner,Alexander Milov,Yoshiki Miyachi,H. Mkrtchyan,P. Monaghan,R. A. Montgomery,D. P. Morrison,A. Movsisyan,Michael Murray,Kiyoshi Nagai,J. L. Nagle,I. Nakagawa,Christine Nattrass,D. Nguyen,S. Niccolai,Rachid Nouicer,G. Nukazuka,M. Nycz,V. A. Okorokov,Susan Oresic,J. D. Osborn,C.O’. Shaughnessy,S. Paganis,Z. Papandreou,S. F. Pate,M. Patel,Christoph Paus,G. G. Penman,M. Grosse Perdekamp,Dennis Perepelitsa,H. Pereira Da Costa,K. Peters,W. Phelps,E. Piasetzky,C. Pinkenburg,I. Prochazka,T. F. Protzman,Martin Purschke,J. Putschke,J.R. Pybus,Renuka Rajput-Ghoshal,J. Rasson,Brian Raue,Kenneth Francis Read,Ketil Røed,Rolf K. Reed,Joerg Reinhold,E. Renner,James Canton Richards,C. Riedl,Timothy Thomas Rinn,J. Roche,Gunther Roland,Guy Ron,M. Rosati,Christophe Royon,J.H. Ryu,Sevil Salur,R. Santos,M. Sarsour,J. Schambach,A. Schmidt,Cornelius Schwarz,J. Schwiening,R. Seidl,Anne Marie Sickles,Paul Simmerling,Simon Širca,D. Sharma,Zhifeng Shi,T. A. Shibata,C. W. Shih,S Shimizu,U. Shrestha,Karl Slifer,K. Smith,D. Sokhan,R. A. Soltz,W. E. Sondheim,J. Song,I. I. Strakovsky,P. Steinberg,P.V. Stepanov,Justin Stevens,J. Strube,P. Sun,X Sun,K. Suresh,V. Tadevosyan,W. Tang,S. Araya,S. Tarafdar,Liliana Teodorescu,Deloris S. Thomas,Anthony Robert Timmins,L. Tomášek,Nikita Trotta,Richard Trotta,Trine Spedstad Tveter,Ejiro Naomi Umaka,A. Usman,H. W. Van Hecke,C. B. Van Hulse,Julia Velkovska,E. Voutier,Q. Wang,Yu Wang,D. P. Watts,N. Wickramaarachchi,Larry Weinstein,Mark Ian Williams,C.P. Wong,L. Wood,M. Wood,C. L. Woody,Boleslaw Wyslouch,Z.G. Xiao,Yasunori Yamazaki,Y. Yang,Z. Ye,H. Yoo,M. Yurov,Nicholas Zachariou,W. A. Zajc,W. Zha,J.-L. Zhang,J.X. Zhang,Yi Zhang,Y. Zhao,Yerevan,Armenia,Institute of Applied Physics,A. Sinica,Taipei,Taiwan,A. University,Sioux Falls,Sd,Usa,Ben-Gurion University of the Negev Beer-Sheva,Israel,B. N. Laboratory,Upton,Ny,Usa University College London,Uxbridge,Uk,Canisius College,Buffalo,Central China Normal University,Wuhan,China.,Charles University,Prague,Czech Republic,China China Institute of Atomic Energy,Fangshan,Beijing,Christopher Newport University,Newport News,Va,C. University,N. York,Catholic University of America,Dc Washington,Czech Technical University,Duquesne University,Pittsburgh,Pa,D. University,N. Durham,Florida International University,Miami,Fl,Georgia State University,Atlanta,Ga,U Glasgow,Glasgow,Gsi GmbH,Darmstadt,Germany,The George Washington University,Washington,Dc,H. University,Hampton,Hebrew University,Jerusalem,Isreal,U. Paris-Saclay,CNRSIN2p3,IJCLab,Orsay,France.,Irfu,Cea,Gif-sur-Yvette France,Chinese Academy of Sciences,Lanzhou,I. S. University,Iowa City,Ia,J. University,Jazan,Sadui Arabia,Thomas Jefferson National Accelerator Facility,James Madison University,Harrisonburg,K. University,Kobe,Japan.,Kyungpook National University,Daegu,R Korea,Los Alamos National Laboratory,L. Alamos,Nm,Lawrence Berkeley National Lab.,Berkeley,Ca,Lehigh University,Bethlehem,L. Laboratory,Livermore,Morehead State University,Morehead,Ky,M. I. O. Technology,Cambridge,Ma,M. S. University,Mississippi State,Mš,National Cheng Kung University,Tainan,National Central University,Chungli,Nihon University,Tokyo,N. University,Las Cruces,National Research Nuclear University MEPhI,Moscow,Russian Federation,Nuclear Research Center - Negev,Beer-Sheva,National Tsing Hua University,Hsinchu,National Taiwan Normal University,Old Dominion University,Norfolk,Ohio University,Athens,Oh,Oak Ridge National Laboratory,Oak Ridge,Tn,P. N. N. Laboratory,Richland,Wa,Pusan National University,Busan,R. University,Houston,Tx,Riken Nishina Center,Wako,Saitama,The State University of New Jersey,Piscataway,Nj,Center for Space Science,S. Brook,S. B. University,RIKEN-BNL Research Center,Shandong Qingdao,Shandong,Seoul National University,Seoul,Sejong University,S. University,Matsumoto,Nagano,S. University,Suwon,T. University,Tel Aviv,U. O. Science,Technology of China,Hefei,China Tsinghua University,Tsukuba University of Technology,Tsukuba,Ibaraki,U. C. A. Boulder,Boulder,Co,U. Connecticut,Storrs,Ct,Universityof Georgia,GA Dahlonega,U. Houston,U. Illinois,Urbana,Il,Unviersity of Kansas,Lawrence,Ks,U Kentucky,Lexington,U Ljubljana,Ljubljana,Slovenia,University of New Hampshire,Durham,Nh,Universityof Oslo,Oslo,Norway,U. O. Regina,Regina,Sk,Canada,University of Seoul,U Tsukuba,U Texas,Austin,Texas,U Tennessee,Knoxville,U Virginia,Charlottesville,V. University,Nashville,V. Tech,Blacksburg,Virginia Union University,Richmond,Wayne State University,Detroit,Mi,Weizmann Institute of Science,Rehovot,T William,Mary,Williamsburg,Y. University,Yamagata,Yarmouk University,Irbid,Jordan,Y. University,University of York,York,University of Zagreb,Zagreb,Croatia +504 more
Abstract: We describe the design and performance the calorimeter systems used in the ECCE detector design to achieve the overall performance specifications cost-effectively with careful consideration of appropriate technical and schedule risks. The calorimeter systems consist of three electromagnetic calorimeters, covering the combined pseudorapdity range from -3.7 to 3.8 and two hadronic calorimeters. Key calorimeter performances which include energy and position resolutions, reconstruction efficiency, and particle identification will be presented.
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Household Solid Waste Recycling Induced Production Values and Employment Opportunities in Taiwan
TL;DR: In this paper, the authors estimated the production values and employment opportunities induced by household solid waste recycling were estimated from a sampling survey, and the estimated added value was approximately NT$35 (USD$1) billion.
Magnetic Spirals in Accretion Flows Originated from Misaligned Magnetic Fields
Weixiao Wang,M. Vaisala,Hsien Shang,Ruben Krasnopolsky,Zhi-Yun Li,Ka Ho Lam,Feng Yuan Shanghai Astronomical Observatory,Chinese Academy of Sciences,Shanghai,China.,University of Chinese Academy of Sciences,Beijing,A. Sinica,I. O. Astronomy,Astrophysics,Taipei,Taiwan,A. Department,U Virginia,Charlottesville,Usa +20 more
TL;DR: In this article, the authors analyzed existing simulation data to measure the system torques, mass accretion rates, and Toomre Q parameters, and examined the presence of shocks in the system.
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