Overview of recent Alcator C-Mod results

I.H. Hutchinson; R. Boivin; P.T. Bonoli; C. Boswell; R. Bravenec; N.L. Bretz; R. Chatterjee; T. Chung; E. Eisner; C. Fiore; S. Gangadhara; K. Gentle; J.A. Goetz; R.S. Granetz; M.J. Greenwald; J.C. Hosea; A.E. Hubbard; J. Hughes; Y. In; J. Irby; B. LaBombard; Y. Lin; B. Lipschultz; R.J. Maqueda; E.S. Marmar; A. Mazurenko; D. Mikkelsen; D. Mossessian; R. Nachtrieb; R. Nazikian; E. Nelson-Melby; D. Pappas; R.R. Parker; T. Sunn Pedersen; P. Phillips; C.S. Pitcher; M. Porkolab; J.E. Rice; W. Rowan; G. Schilling; J.A. Snipes; G. Taylor; J.L. Terry; J.R. Wilson; S.M. Wolfe; S.J. Wukitch; H. Yuh; S.J. Zweben; P. Acedo; M. Brambilla; B.A. Carreras; R. Gandy; G.A. Hallock; W. Dorland; D. Johnson; N. Krashennikova; C. Phillips; T. Tutt; C. Watts; M. Umansky

doi:10.1088/0029-5515/41/10/307

Overview of recent Alcator C-Mod results

I.H. Hutchinson¹, R. Boivin¹, P.T. Bonoli¹, C. Boswell¹, R. Bravenec², N.L. Bretz³, R. Chatterjee², T. Chung¹, E. Eisner², C. Fiore¹, S. Gangadhara¹, K. Gentle², J.A. Goetz¹, R.S. Granetz¹, M.J. Greenwald¹, J.C. Hosea³, A.E. Hubbard¹, J. Hughes¹, Y. In⁴, J. Irby¹, B. LaBombard¹, Y. Lin¹, B. Lipschultz¹, R.J. Maqueda⁵, E.S. Marmar¹, A. Mazurenko¹, D. Mikkelsen³, D. Mossessian¹, R. Nachtrieb¹, R. Nazikian³, E. Nelson-Melby¹, D. Pappas¹, R.R. Parker¹, T. Sunn Pedersen¹, P. Phillips², C.S. Pitcher¹, M. Porkolab¹, J.E. Rice¹, W. Rowan², G. Schilling³, J.A. Snipes¹, G. Taylor³, J.L. Terry¹, J.R. Wilson³, S.M. Wolfe¹, S.J. Wukitch¹, H. Yuh¹, S.J. Zweben³, P. Acedo⁶, M. Brambilla⁷, B.A. Carreras⁸, R. Gandy⁴, G.A. Hallock², W. Dorland⁹, D. Johnson³, N. Krashennikova¹, C. Phillips³, T. Tutt¹, C. Watts¹⁰ and M. Umansky¹

Published under licence by IOP Publishing Ltd
Nuclear Fusion, Volume 41, Number 10 Citation I.H. Hutchinson et al 2001 Nucl. Fusion 41 1391 DOI 10.1088/0029-5515/41/10/307

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¹ Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts, USA

² University of Texas, Fusion Research Center, Austin, Texas, USA

³ Princeton Plasma Physics Laboratory, Princeton University, Princeton, New Jersey, USA

⁴ University of Idaho, Moscow, Idaho, USA

⁵ Los Alamos National Laboratory, Los Alamos, New Mexico, USA

⁶ Universidad Carlos III de Madrid, Madrid, Spain

⁷ Max-Planck-Institute for Plasma Physics, Garching, Germany

⁸ Fusion Energy Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee, USA

⁹ University of Maryland, College Park, Maryland, USA

¹⁰ Auburn University, Auburn, Alabama, USA

Dates

Received 3 October 2000
Accepted 17 January 2001

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Abstract

Research on the Alcator C-Mod tokamak is focused on exploiting compact high density plasmas to understand core transport and heating, the physics of the H mode transport barrier, and the dynamics of the scrape-off layer and divertor. Rapid toroidal acceleration of the plasma core is observed during ohmic heated H modes and indicates a momentum pinch or similar transport mechanism. Core thermal transport observations support a critical gradient interpretation, but with gradients that disagree with present theoretical values. High resolution measurements of the H mode barrier have been obtained, including impurity and neutral densities, and the instability apparently responsible for the favourable `enhanced D alpha' regime has been identified. Divertor bypass dynamic control experiments have directly addressed the important questions surrounding main chamber recycling and the effect of divertor closure on impurities and confinement. Future plans include quasi-steady-state advanced tokamak plasmas using lower hybrid current drive.

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Overview of recent Alcator C-Mod results

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