W
W. Reiersen
Researcher at Princeton Plasma Physics Laboratory
Publications - 28
Citations - 548
W. Reiersen is an academic researcher from Princeton Plasma Physics Laboratory. The author has contributed to research in topics: Tokamak & Stellarator. The author has an hindex of 9, co-authored 28 publications receiving 504 citations.
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Journal ArticleDOI
The KSTAR project: An advanced steady state superconducting tokamak experiment
G.S. Lee,J.Y. Kim,S.M. Hwang,Choong-Seock Chang,H.Y. Chang,Moo-Hyun Cho,B.H. Choi,Kyekyoon Kim,K.W. Cho,S.Y. Cho,K.K. Choh,C.H. Choi,J.H. Choi,J.W. Choi,I.S. Choi,C.J. Do,T.H. Ha,J.H. Han,J.S. Hong,K.H. Hong,N.I. Hur,I.S. Hwang,K.H. Im,H.G. Jhang,Y.S. Jung,B.C. Kim,D.L. Kim,G.H. Kim,H.S. Kim,J.S. Kim,J.Y. Kim,W.C. Kim,Y.S. Kim,K.H. Kwon,M.C. Kyum,B.J. Lee,D.K. Lee,H.G. Lee,J.M. Lee,S.G. Lee,H.G. Na,Y.K. Oh,J.H. Park,H.C. Ri,Y.S. Ryoo,K.Y. Song,H.L. Yang,J.G. Yang,B.J. Yoo,S.J. Yoo,N.S. Yoon,S.B. Yoon,G.H. You,K.I. You,Wonho Choe,D.-I. Choi,S.G. Jeong,D.Y. Lee,Young-Soon Bae,H.S. Kang,G.N. Kim,I.S. Ko,Won Namkung,J.S. Oh,Y.D. Bae,Y.S. Cho,B.G. Hong,G. Hong,C.K. Hwang,S.R. In,M.H. Ju,H.J. Lee,B.H. Oh,B.J. Yoon,S. Baang,H.J. Choi,J. Hwang,M.G. Kim,Y.J. Kim,Soonil Lee,J. Yee,C.S. Yoon,K.-H. Chung,SeulChan Hong,Yong-Seok Hwang,S.H. Kim,YooSung Kim,J.Y. Lim,D.W. Ha,S.S. Oh,K.S. Ryu,Q.L. Wang,T.K. Ko,J. Joo,S. Suh,J.H. Lee,Y.W. Lee,H.S. Shin,I.H. Song,J. Baek,I.Y. Han,Y. Koh,P.Y. Park,C. Ryu,J.J. Cho,D.M. Hwang,J. A. Schmidt,Hyeon K. Park,George H. Neilson,W. Reiersen,R.T. Simmons,S. Bernabei,F. Dahlgren,Larry R. Grisham,Stephen Jardin,C.E. Kessel,J. Manickam,S. S. Medley,Neil Pomphrey,J.C. Sinnis,Thomas Brown,Roscoe White,K. Young,J.H. Schultz,P.W. Wang,L. Sevier,Mark D. Carter,P.M. Ryan,D.W. Swain,D. N. Hill,W. M. Nevins,Bastiaan J. Braams +131 more
TL;DR: The Korea Superconducting Tokamak Advanced Research (KSTAR) project is the major effort of the national fusion programme of the Republic of Korea as mentioned in this paper, which aims to develop a steady state capable advanced superconducting tokamak to establish a scientific and technological basis for an attractive fusion reactor.
Journal ArticleDOI
The design of the KSTAR tokamak
Gyung-Su Lee,Joung-Sik Kim,SM Hwang,Choong-Seock Chang,Hong-Young Chang,Moo-Hyun Cho,BH Choi,Keeman Kim,Stephen Jardin,George H. Neilson,Hyeon K. Park,W. Reiersen,J. A. Schmidt,Kenneth M. Young,J.H. Schultz,L. Sevier,Sy Cho,Jeon-Geon Han,Ni Hur,KH Im,S. S. Kim,Jy Kim,M.C. Kyum,BJ Lee,DK Lee,Shyh-Hwang Lee,HL Yang,BG Hong,Yong-Seok Hwang,Suk-Kwon Kim,Yong-Jae Kim,Jy Lim,Won Namkung,Kie-hyung Chung,Di Choi +34 more
TL;DR: The Korea Superconducting Tokamak Advanced Research (KSTAR) Project is the major effort of the Korean National Fusion Program (KNFP) to develop a steady-state-capable advanced superconducting tokamak to establish a scientific and technological basis for an attractive fusion reactor.
Journal ArticleDOI
Physics Design of a High-beta Quasi-axisymmetric Stellarator
A. Reiman,Guoyong Fu,S.P. Hirshman,L. P. Ku,D. A. Monticello,H. Mynick,M. H. Redi,Donald A. Spong,M. C. Zarnstorff,Boyd Blackwell,Allen H. Boozer,A. Brooks,W. A. Cooper,M. Drevlak,Robert James Goldston,J. H. Harris,M. Isaev,Charles Kessel,Zhihong Lin,J. F. Lyon,P. Merkel,M. I. Mikhailov,W. Miner,George H. Neilson,Masao Okamoto,Neil Pomphrey,W. Reiersen,Raul Sanchez,J. A. Schmidt,A.A. Subbotin,Prashant M Valanju,K.Y. Watanabe,Roscoe White,Noriyoshi Nakajima,C. Nührenberg +34 more
TL;DR: In this paper, a high-quasi-axisymmetric stellarator configuration has been designed to provide good drift trajectories and axisymmetry has been used to provide a good drift trajectory.
Journal ArticleDOI
Design of the national compact stellarator experiment (NCSX)
B.E. Nelson,Lee A. Berry,A. Brooks,M.J. Cole,J.C. Chrzanowski,H. M. Fan,P.J. Fogarty,P.L. Goranson,P.J. Heitzenroeder,S.P. Hirshman,G.H. Jones,J. F. Lyon,George H. Neilson,W. Reiersen,Dennis J Strickler,D. Williamson +15 more
TL;DR: The National Compact Stellarator Experiment (NCSX) as discussed by the authors was designed as a proof of principal test of a quasi-axisymmetric compact stellarator, which combines the high beta and good confinement features of an advanced tokamak with the low current, disruption-free characteristics of a stellarator.
Journal ArticleDOI
Innovations in compact stellarator coil design
Neil Pomphrey,Lee A. Berry,Allen H. Boozer,A. Brooks,R. Hatcher,S.P. Hirshman,L. P. Ku,W.H. Miner,H.E. Mynick,W. Reiersen,Dennis J Strickler,Prashant M Valanju +11 more
TL;DR: In the course of designing a flexible coil set for the National Compact Stellarator Experiment, several innovations have been made that may be useful in future stellarator design efforts.