FY 2016 Fusion Energy Sciences (FES) Theory and Simulation Performance Target | Zendy

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FY 2016 Fusion Energy Sciences (FES) Theory and Simulation Performance Target

Author(s) -

C. S. Chang,

R.M. Churchill,

R. Hager,

S. Ku,

D.P. Stotler,

X. Q. Xu,

Bin Chen,

B. Cohen,

I. Joseph,

T.D. Rognlien,

T. F. Tand,

M. Umansky,

J. R. Myra

Publication year - 2016

Language(s) - English

Resource type - Reports

DOI - 10.2172/1471207

Subject(s) - divertor , fusion power , heat load , nuclear engineering , fusion , heat flux , scaling , plasma , kinetic energy , flux (metallurgy) , high heat , physics , enhanced data rates for gsm evolution , nuclear fusion , nuclear physics , mechanics , computational physics , tokamak , materials science , computer science , heat transfer , thermodynamics , engineering , classical mechanics , mathematics , geometry , telecommunications , linguistics , philosophy , metallurgy , composite material

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