TJ-I: Difference between revisions

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* [http://dx.doi.org/10.1109/27.24642 M.A. Ochando, A.P. Navarro, J.A. Vega, ''Feasibility of local power losses determination in the TJ-II heliac using movable bolometers'', IEEE Trans. on Plasma Science '''17''' (1989) 316]
* [http://dx.doi.org/10.1109/27.24642 M.A. Ochando, A.P. Navarro, J.A. Vega, ''Feasibility of local power losses determination in the TJ-II heliac using movable bolometers'', IEEE Trans. on Plasma Science '''17''' (1989) 316]
* [http://link.aip.org/link/RSINAK/v61/i10/p3034/s1 T. Estrada, J. Sánchez, B. Brañas, and A. P. Navarro, ''Broadband homodyne reflectometer devoted to density fluctuation measurements'', Rev. Sci. Instrum. '''61''' (1990) 3034]
* [http://link.aip.org/link/RSINAK/v61/i10/p3034/s1 T. Estrada, J. Sánchez, B. Brañas, and A. P. Navarro, ''Broadband homodyne reflectometer devoted to density fluctuation measurements'', Rev. Sci. Instrum. '''61''' (1990) 3034]
* C. Hidalgo, M.A. Pedrosa, A. Navarro, et al, Nucl. Fusion '''30''' (1990) 717
* C. Hidalgo, M.A. Pedrosa, A. Navarro, F.L. Tabarés, E. Ascasíbar, F. Pérez Murano, ''Electrostatic and magnetic turbulence in the TJ-I tokamak'', Nucl. Fusion '''30''' (1990) 717
* J. Sánchez, H.J. Hartfuss, E. Anabitarte, et al., Nucl. Fusion '''30''' (1990) 2383
* J. Sánchez, H.J. Hartfuss, E. Anabitarte, et al., Nucl. Fusion '''30''' (1990) 2383
* [http://dx.doi.org/10.1016/0042-207X(90)94009-F F.L. Tabares, B. Garcia-Castañer, M. Liniers, N. Lorente, TJ-I team and J. Hackman, ''Global particle balance in the TJ-I tokamak'', Vacuum '''41''' (1990) 1519]
* [http://dx.doi.org/10.1016/0042-207X(90)94009-F F.L. Tabares, B. Garcia-Castañer, M. Liniers, N. Lorente, TJ-I team and J. Hackman, ''Global particle balance in the TJ-I tokamak'', Vacuum '''41''' (1990) 1519]

Revision as of 17:33, 16 August 2010

TJ-I at the end of its life

The TJ-I tokamak was the first magnetic confinement device at CIEMAT (then JEN). It started operation in 1983, and has been operational until 1995. Ohmic heating was used.

This device has been the subject of many research programmes dedicated to the study of physical processes in tokamak plasmas:

  • basic confinement studies (transport, electric fields, isotope effect)
  • edge physics
  • turbulence studies (driving mechanisms, turbulent transport)
  • plasma-wall interaction (carbonization, boronization)
  • diagnostic development (microwave reflectometry, radiation detectors, probes, atomic beams,...)


Parameter Value Unit
Major radius, R0: 0.30 m
Mean plasma radius, a: 0.10 m
Plasma current, Ip: 30 kA
Toroidal field, BT: 1.0 - 1.4 T
Electron density, ne: 1.3 1019 m-3

External links

References