A al-Karkhy scite author profile

The structure of the n = 1 mode in the SPHEX spheromak, which plays a central role in relaxation during sustainment, is investigated by analysing the measured voltage fluctuations in the central plasma column. By combining these results with a suitably defined helical magnetic flux function, the mode is found to be due to a rotating helical distortion of the open linked flux. We propose that the distortion is due to a saturated current-driven kink mode of the open flux tube. The prolongation of this 'helical column' on its return around the outside of the closed flux is found to be strongly asymmetric. Previously published measurements of the Poynting flux and µ-profile are re-analysed in the light of these results, and implications for the mechanism of relaxation and non-inductive current drive are discussed.

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The design and operation of the SPHEX spheromak

Rusbridge

Gee

Browning

et al. 1997

Plasma Phys. Control. Fusion

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We describe the design and operation of the SPHEX spheromak device and present an overview of its behaviour. The plasma is formed by ejection from a magnetized Marshall gun, and can be sustained as long as the gun is energized. The plasma is divided into the annulus comprising the closed toroidal flux, linked with the open flux forming the central column. The column current is driven directly by the central gun electrode, and the toroidal current in the annulus is driven indirectly by a mechanism associated with a coherent n = 1 oscillation of the column. The configuration exemplifies the operation of the process of relaxation to a state of minimum magnetic energy, which leads to magnetic configurations similar to those observed; to sustain these configurations requires some mechanism of toroidal current drive. Associated with this is the amplification of the poloidal flux, which is typically a factor of about five larger than the flux generated by the gun solenoid; the constancy (to a first approximation) of this factor plays a controlling role in spheromak behaviour. In standard operating conditions there is a 'hard' limit, set by the solenoid flux, on the current carried by the column; any current driven by the external circuit above this apparently does not emerge from the gun. Evidence is presented that the column current is carried largely (>50%) by accelerated ions with energy up to the gun voltage (≈500 V for a typical gun current of 60 kA). These ions are poorly magnetized and can escape across the magnetic field to the wall, a likely mechanism for the observed 'loss' of current. Hydrogen is the normal operating gas: other gases (D 2 and He) have been used, but the current drive is found to be less effective than in H 2 , with lower toroidal current maintained in the annulus.

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Power flow in a gun-injected spheromak plasma

Browning

Cunningham

et al. 1992

Phys. Rev. Lett.

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Observations of the magnetohydrodynamic dynamo effect in a spheromak plasma

et al. 1993

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We present measurements of the magnetohydrodynamic ''dynamo" due to correlated fluctuations of velocity and magnetic field in the SPHEX spheromak. We show that there are both single-mode and turbulent dynamo processes present, although the single-mode process is in this case an "antidynamo" opposing the externally applied electric field. The size of the turbulent dynamo at the magnetic axis is close to that required to drive the toroidal current there.

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A al-Karkhy

Structure of then= 1 mode responsible for relaxation and current drive during sustainment of the SPHEX spheromak

The design and operation of the SPHEX spheromak

Power flow in a gun-injected spheromak plasma

Observations of the magnetohydrodynamic dynamo effect in a spheromak plasma

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