Mahmood Miah scite author profile

Short ∼3 ms pulses of 80 keV deuterium neutrals are injected at three different tangency radii into the national spherical torus experiment. The confinement is studied as a function of tangency radius, plasma current (between 0.4 and 1.0 MA), and toroidal field (between 2.5 and 5.0 kG). The jump in neutron emission during the pulse is used to infer prompt losses of beam ions. In the absence of MHD, the neutron data show the expected dependences on beam angle and plasma current; the average jump in the neutron signal is 88 ± 39% of the expected jump. The decay of the neutron and neutral particle signals following the blip are compared to the expected classical deceleration to detect losses on a 10 ms timescale. The temporal evolution of these signals are consistent with Coulomb scattering rates, implying an effective beam-ion confinement time 100 ms. The confinement is insensitive to the toroidal field despite large values of ρ∇B/B ( 0.25), so any effects of non-conservation of the adiabatic invariant µ are smaller than the experimental error.

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On collisionless ion and electron populations in the magnetic nozzle experiment (MNX)

Cohen

Sun

Ferraro

et al. 2006

IEEE Trans. Plasma Sci.

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The Magnetic Nozzle Experiment (MNX) is a linear magnetized helicon-heated plasma device, with applications to advanced spacecraft-propulsion methods and solar-corona physics. This paper reviews ion and electron energy distributions measured in MNX with laser-induced fluorescence (LIF) and probes, respectively. Ions, cold and highly collisional in the main MNX region, are accelerated along a uniform magnetic field to sonic then supersonic speeds as they exit the main region through either mechanical or magnetic apertures. A sharp decrease in density downstream of the aperture(s) helps effect a transition from collisional to collisionless plasma. The electrons in the downstream region have an average energy somewhat higher than that in the main region. From LIF ion-velocity measurements, we find upstream of the aperture a presheath of strength , where is the electron temperature in the main region, and length 3 cm, comparable to the ion-neutral mean-free-path; immediately downstream of the aperture is an electrostatic double layer of strength and length 0.3-0.6 cm, 30-. The existence of a small, ca. 0.1%, superthermal electron population with average energy is inferred from considerations of spectroscopic line ratios, floating potentials, and Langmuir probe data. The superthermal electrons are suggested to be the source for the large .

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On-axis parallel ion speeds near mechanical and magnetic apertures in a helicon plasma device

Sun

Cohen

Scime

et al. 2005

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Using laser-induced fluorescence, measurements of parallel ion velocities were made along the axis of a helicon-generated Ar plasma column whose radius was modified by spatially separated mechanical and magnetic apertures. Ion acceleration to supersonic speeds was observed 0.1–5cm downstream of both aperture types, simultaneously generating two steady-state double layers (DLs) when both apertures were in place. The DL downstream of the mechanical aperture plate had a larger potential drop, ΔϕDL=6–9kTe, compared to the DL downstream of the magnetic aperture, ΔϕDL∼3kTe. In the presheath region upstream of the mechanical aperture, the convective ion speed increased over a collisional distance; from stagnant at 4cm from the aperture to the 1.4 times the sound speed at the aperture. The dependence of the free- and trapped-ion-velocity-distribution functions on the magnetic-field strength and mechanical-aperture electrical bias are also presented.

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FACETS  A Framework for Parallel Coupling of Fusion Components

Cary

Hakim

Miah

et al. 2010

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Mahmood Miah

The confinement of dilute populations of beam ions in the national spherical torus experiment

On collisionless ion and electron populations in the magnetic nozzle experiment (MNX)

On-axis parallel ion speeds near mechanical and magnetic apertures in a helicon plasma device

FACETS  A Framework for Parallel Coupling of Fusion Components

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Mahmood Miah

The confinement of dilute populations of beam ions in the national spherical torus experiment

On collisionless ion and electron populations in the magnetic nozzle experiment (MNX)

On-axis parallel ion speeds near mechanical and magnetic apertures in a helicon plasma device

FACETS &#150; A Framework for Parallel Coupling of Fusion Components

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FACETS A Framework for Parallel Coupling of Fusion Components