M. Blaumoser scite author profile

First plasmas have been successfully achieved in the TJ-II stellarator using electron cyclotron resonance heating (f = 53.2 GHz, P ECRH = 250 kW). Initial experiments have explored the TJ-II flexibility in a wide range of plasma volumes, different rotational transform and magnetic well values. In this paper, the main results of this campaign are presented and, in particular, the influence of plasma wall interaction phenomena on TJ-II operation is discussed briefly.

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Review of confinement and transport studies in the TJ-II flexible heliac

Alejaldre¹,

Almoguera²,

Alonso³

et al. 2001

Nucl. Fusion

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TJ-II is a four period, low magnetic shear stellarator (R = 1.5 m, a < 0.22 m, B 0 ≤ 1.2 T) which was designed to have a high degree of magnetic configuration flexibility. In the last experimental campaign, coupling of the full ECH power (P ECRH ≤ 600 kW) to the plasma has been possible using two ECRH transmission lines which have different power densities. Both helium and hydrogen fuelled plasmas have been investigated. This paper reviews the latest physics results in particle control, configuration effects, and transport and fluctuation studies.

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Confinement and stability on the TJ-II stellarator

Ascasíbar¹,

Alejaldre²,

Alonso³

et al. 2002

Plasma Phys. Control. Fusion

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This paper describes a series of experiments performed in TJ-II stellarator with the aim of studying the influence of magnetic configuration on stability and transport properties of TJ-II plasmas. Plasma potential profiles have been measured in several configurations up to the plasma core with the heavy ion beam probe diagnostic. Low-order rational surfaces have been positioned at different plasma radii observing the effect on transport features. Plasma edge turbulent transport has been studied in configurations that are marginally stable due to decreased magnetic well. Results show a dynamical coupling between gradients and turbulent transport. Experiments on the influence of magnetic shear on confinement are reported. Global confinement issues as well as enhanced confinement regimes found in TJ-II are discussed as well.

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Confinement studies in the TJ-II stellarator

Alejaldre¹,

Alonso²,

Almoguera³

et al. 1999

Plasma Phys. Control. Fusion

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ECR (electron cyclotron resonance) heated plasmas have been studied in the low magnetic shear TJ-II stellarator (R = 1.5 m, a < 0.22 m, B = 1 T, f = 53.2 GHz, P ECRH = 300 kW, power density = 1-25 W cm −3 ). Recent experiments have explored the flexibility of the TJ-II across a wide range of plasma volumes with different rotational transforms and rational surface densities. In this paper, the main results of this campaign are presented and, in particular, the influence of iota and rational surfaces on plasma profiles is discussed.

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Status of TJ-II Project

et al. 1995

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M. Blaumoser

First plasmas in the TJ-II flexible Heliac

Review of confinement and transport studies in the TJ-II flexible heliac

Confinement and stability on the TJ-II stellarator

Confinement studies in the TJ-II stellarator

Status of TJ-II Project

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