ICRF heating in several regimes on TFTR

J. C. Hosea; M. Beer; M. G. Bell; M. Bitter; R. Boivin; N. L. Bretz; C. E. Bush; A. Cavallo; T. K. Chu; S. A. Cohen; P. L. Colestock; H. F. Dylla; P. C. Efthimion; E. D. Fredrickson; R. J. Goldston; G. J. Greene

ICRF heating in several regimes on TFTR

J. C. Hosea, M. Beer, M. G. Bell, M. Bitter, R. Boivin, N. L. Bretz, C. E. Bush, A. Cavallo, T. K. Chu, S. A. Cohen, P. L. Colestock, H. F. Dylla, P. C. Efthimion, E. D. Fredrickson, R. J. Goldston, G. J. Greene

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

6 Scopus citations

Abstract

Over the past year, the two ICRF antennas on TFTR have been used to apply rf powers up to a level of 6 MW. Impurity generation at the antennas has continued to be negligible for the out-of-phase toroidal rf current strap array employed, even at the highest power levels where the average power density at one antenna has exceeded 10 MW/m². The higher operating power levels have supported explorations of all three plasma regimes of interest - the high-recycling gas-fueled regime, the low-recycling neutral-beam-heated supershot regime, and the low-recycling pellet-fueled regime. Noteworthy results include: ICRF sawtooth stabilization has been demonstrated in all three regimes; fusion reactivity has been significantly enhanced at approximately constant Q in the supershot regime; and efficient core heating at n_e(0) ≈ 2.4 × 10¹⁴ cm^-3 has been demonstrated in the pellet-fuelded regime. Extrapolations of these results to 12.5 MW operations in the D-T phase of TFTR, which is planned to provide relatively high β_α (approximately 0.5%) supershots in support of α physics studies and hot high density pellet-fueled regimes in support of ClT operations, are discussed briefly.

Original language	English (US)
Title of host publication	Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res
Publisher	Publ by IAEA
Pages	669-677
Number of pages	9
ISBN (Print)	9201300913
State	Published - Jan 1 1991
Externally published	Yes

Publication series

Name	Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res

ASJC Scopus subject areas

General Engineering

Cite this

Hosea, J. C., Beer, M., Bell, M. G., Bitter, M., Boivin, R., Bretz, N. L., Bush, C. E., Cavallo, A., Chu, T. K., Cohen, S. A., Colestock, P. L., Dylla, H. F., Efthimion, P. C., Fredrickson, E. D., Goldston, R. J., & Greene, G. J. (1991). ICRF heating in several regimes on TFTR. In Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res (pp. 669-677). (Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res). Publ by IAEA.

Hosea, JC, Beer, M, Bell, MG, Bitter, M, Boivin, R, Bretz, NL, Bush, CE, Cavallo, A, Chu, TK, Cohen, SA, Colestock, PL, Dylla, HF, Efthimion, PC, Fredrickson, ED, Goldston, RJ & Greene, GJ 1991, ICRF heating in several regimes on TFTR. in Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res. Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res, Publ by IAEA, pp. 669-677.

@inproceedings{39776db356974ab795a7f9a514ccc347,

title = "ICRF heating in several regimes on TFTR",

abstract = "Over the past year, the two ICRF antennas on TFTR have been used to apply rf powers up to a level of 6 MW. Impurity generation at the antennas has continued to be negligible for the out-of-phase toroidal rf current strap array employed, even at the highest power levels where the average power density at one antenna has exceeded 10 MW/m2. The higher operating power levels have supported explorations of all three plasma regimes of interest - the high-recycling gas-fueled regime, the low-recycling neutral-beam-heated supershot regime, and the low-recycling pellet-fueled regime. Noteworthy results include: ICRF sawtooth stabilization has been demonstrated in all three regimes; fusion reactivity has been significantly enhanced at approximately constant Q in the supershot regime; and efficient core heating at ne(0) ≈ 2.4 × 1014 cm-3 has been demonstrated in the pellet-fuelded regime. Extrapolations of these results to 12.5 MW operations in the D-T phase of TFTR, which is planned to provide relatively high βα (approximately 0.5%) supershots in support of α physics studies and hot high density pellet-fueled regimes in support of ClT operations, are discussed briefly.",

author = "Hosea, {J. C.} and M. Beer and Bell, {M. G.} and M. Bitter and R. Boivin and Bretz, {N. L.} and Bush, {C. E.} and A. Cavallo and Chu, {T. K.} and Cohen, {S. A.} and Colestock, {P. L.} and Dylla, {H. F.} and Efthimion, {P. C.} and Fredrickson, {E. D.} and Goldston, {R. J.} and Greene, {G. J.}",

year = "1991",

month = jan,

day = "1",

language = "English (US)",

isbn = "9201300913",

series = "Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res",

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T1 - ICRF heating in several regimes on TFTR

AU - Hosea, J. C.

AU - Beer, M.

AU - Bell, M. G.

AU - Bitter, M.

AU - Boivin, R.

AU - Bretz, N. L.

AU - Bush, C. E.

AU - Cavallo, A.

AU - Chu, T. K.

AU - Cohen, S. A.

AU - Colestock, P. L.

AU - Dylla, H. F.

AU - Efthimion, P. C.

AU - Fredrickson, E. D.

AU - Goldston, R. J.

AU - Greene, G. J.

PY - 1991/1/1

Y1 - 1991/1/1

N2 - Over the past year, the two ICRF antennas on TFTR have been used to apply rf powers up to a level of 6 MW. Impurity generation at the antennas has continued to be negligible for the out-of-phase toroidal rf current strap array employed, even at the highest power levels where the average power density at one antenna has exceeded 10 MW/m2. The higher operating power levels have supported explorations of all three plasma regimes of interest - the high-recycling gas-fueled regime, the low-recycling neutral-beam-heated supershot regime, and the low-recycling pellet-fueled regime. Noteworthy results include: ICRF sawtooth stabilization has been demonstrated in all three regimes; fusion reactivity has been significantly enhanced at approximately constant Q in the supershot regime; and efficient core heating at ne(0) ≈ 2.4 × 1014 cm-3 has been demonstrated in the pellet-fuelded regime. Extrapolations of these results to 12.5 MW operations in the D-T phase of TFTR, which is planned to provide relatively high βα (approximately 0.5%) supershots in support of α physics studies and hot high density pellet-fueled regimes in support of ClT operations, are discussed briefly.

AB - Over the past year, the two ICRF antennas on TFTR have been used to apply rf powers up to a level of 6 MW. Impurity generation at the antennas has continued to be negligible for the out-of-phase toroidal rf current strap array employed, even at the highest power levels where the average power density at one antenna has exceeded 10 MW/m2. The higher operating power levels have supported explorations of all three plasma regimes of interest - the high-recycling gas-fueled regime, the low-recycling neutral-beam-heated supershot regime, and the low-recycling pellet-fueled regime. Noteworthy results include: ICRF sawtooth stabilization has been demonstrated in all three regimes; fusion reactivity has been significantly enhanced at approximately constant Q in the supershot regime; and efficient core heating at ne(0) ≈ 2.4 × 1014 cm-3 has been demonstrated in the pellet-fuelded regime. Extrapolations of these results to 12.5 MW operations in the D-T phase of TFTR, which is planned to provide relatively high βα (approximately 0.5%) supershots in support of α physics studies and hot high density pellet-fueled regimes in support of ClT operations, are discussed briefly.

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M3 - Conference contribution

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BT - Proc 13 Int Conf Plasma Phys Controlled Nucl Fusion Res

PB - Publ by IAEA

ER -

ICRF heating in several regimes on TFTR

Abstract

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ASJC Scopus subject areas

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