P
Patrick Diamond
Researcher at University of California, San Diego
Publications - 621
Citations - 24103
Patrick Diamond is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Turbulence & Wave turbulence. The author has an hindex of 71, co-authored 604 publications receiving 22522 citations. Previous affiliations of Patrick Diamond include General Atomics & University of Wisconsin-Madison.
Papers
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Perspective of Negative Triangularity Tokamak as Fusion Energy System
M. Kikuchi,S. Medvedev,Tomonori Takizuka,Ambrogio Fasoli,Y. Wu,Patrick Diamond,X. Duan,Yasuaki Kishimoto,Kazuaki Hanada,L. Villard,Olivier Sauter,Stefano Coda,B. P. Duval,H. Reimerdes,Stephan Brunner,Gabriele Merlo,J. Jiang,Minghuang Wang,M Ni,Dehong Chen,H Du,W Duan,Y Hou,A. A. Ivanov,An. Martynov,Yu.Yu. Poshekhonov,Yoshio Ueda,L Yan,X Song,G. Zheng,J Liu,Kazunobu Nagasaki,Kenji Imadera,K. Mishra,Akihide Fujisawa,K. Nakamura,Hideki Zushi,M. J. Pueschel,X Z Xu,P hu,D. Told,G Q Li,Masaru Furukawa,T. Ozeki,K. Shimizu,K Kawashima,H. Urano,M. Honda,T Ando,M. Kuriyama +49 more
TL;DR: In this article, nuclear fusion and magnetic confinement are discussed. But the authors focus on the magnetic confinement of the tokamak and do not discuss the nuclear fusion process in the context of magnetic confinement.
Journal ArticleDOI
Physics of turbulence spreading and explicit nonlocality
Qinghao Yan,Patrick Diamond +1 more
Journal ArticleDOI
How turbulence fronts induce plasma spin-up.
TL;DR: It is shown that fluctuation momentum spreads faster than mean flow momentum, and the turbulent flux of wave momentum is stronger than the momentum pinch.
Posted Content
Instability and Turbulent Relaxation in a Stochastic Magnetic Field
Mingyun Cao,Patrick Diamond +1 more
TL;DR: In this article, an analysis of instability dynamics in a stochastic magnetic field is presented for the tractable case of the resistive interchange, and the development of correlation between the ambient magnetic perturbations and the cells is demonstrated.
Journal ArticleDOI
How shear increments affect the flow production branching ratio in CSDX
J. Li,Patrick Diamond +1 more
TL;DR: In this paper, the authors examined the effects of drift wave turbulence on axial flow generation and saturation by axial flows and the response of the energy branching ratio, i.e., ratio of axial and azimuthal Reynolds powers, PzR/PyR.