296 research outputs found
Enhanced Sensitivity Beam Emission Spectroscopy System for Nonlinear Turbulence Measurements
An upgraded Beam Emission Spectroscopy (BES) system has been deployed to
access low amplitude turbulence regions near internal transport barriers on the
DIII-D tokamak. Sixteen high sensitivity channels are being installed. A
significant increase in total signal to noise is achieved by: 1.) Increased
spatial volume sampling tailored to known turbulence characteristics; 2.) An
increased throughput spectrometer assembly to isolate the local beam
fluorescence, coupled to new large-area photoconductive photodiodes; 3.) A new
sharp edge interference filter designed to optimize detection of the beam
emission plus a significant fraction of the thermal deuterium charge exchange.
A new data acquisition system has been installed, providing an 8 times increase
in integration time or an increased sample rate. Preliminary results from the
upgraded system show a signal enhancement of greater than an order of
magnitude. A clear broadband density fluctuation signal is observed in H-mode
discharges with the upgraded BES system, demonstrating the significant
performance enhancement.Comment: HTPD-200
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Intense diagnostic neutral beam development for ITER
For the next-generation, burning tokamak plasmas such as ITER, diagnostic neutral beams and beam spectroscopy will continue to be used to determine a variety of plasma parameters such as ion temperature, rotation, fluctuations, impurity content, current density profile, and confined alpha particle density and energy distribution. Present-day low-current, long-pulse beam technology will be unable to provide the required signal intensities because of higher beam attenuation and background bremsstrahlung radiation in these larger, higher-density plasmas. To address this problem, we are developing a short-pulse, intense diagnostic neutral beam. Protons or deuterons are accelerated using magnetic-insulated ion-diode technology, and neutralized in a transient gas cell. A prototype 25-kA, 100-kV, 1-{mu}s accelerator is under construction at Los Alamos. Initial experiments will focus on ITER-related issues of beam energy distribution, current density, pulse length, divergence, propagation, impurity content, reproducibility, and maintenance
Measurement and physical interpretation of the mean motion of turbulent density patterns detected by the BES system on MAST
The mean motion of turbulent patterns detected by a two-dimensional (2D) beam
emission spectroscopy (BES) diagnostic on the Mega Amp Spherical Tokamak (MAST)
is determined using a cross-correlation time delay (CCTD) method. Statistical
reliability of the method is studied by means of synthetic data analysis. The
experimental measurements on MAST indicate that the apparent mean poloidal
motion of the turbulent density patterns in the lab frame arises because the
longest correlation direction of the patterns (parallel to the local background
magnetic fields) is not parallel to the direction of the fastest mean plasma
flows (usually toroidal when strong neutral beam injection is present). The
experimental measurements are consistent with the mean motion of plasma being
toroidal. The sum of all other contributions (mean poloidal plasma flow, phase
velocity of the density patterns in the plasma frame, non-linear effects, etc.)
to the apparent mean poloidal velocity of the density patterns is found to be
negligible. These results hold in all investigated L-mode, H-mode and internal
transport barrier (ITB) discharges. The one exception is a high-poloidal-beta
(the ratio of the plasma pressure to the poloidal magnetic field energy
density) discharge, where a large magnetic island exists. In this case BES
detects very little motion. This effect is currently theoretically unexplained.Comment: 28 pages, 15 figures, submitted to PPC
Genetic Approaches Identify Differential Roles for α₄β₂* Nicotinic Receptors in Acute Models of Antinociception in Mice
The effects of nicotine on the tail-flick and hot-plate tests were determined to identify nicotinic receptor subtypes responsible for spinally and supraspinally mediated nicotine analgesia in knockin mice expressing hypersensitive α4 nicotinic receptors (L9′S), in seven inbred mouse strains (C57BL/6, DBA/2, A/2, CBA/2, BALB/cByJ, C3H/HeJ, and 129/SvEv), and in two F1 hybrids (B6CBAF1 and B6D2F1). L9′S heterozygotes were ∼6-fold more sensitive to the antinociceptive effects of nicotine than the wild-type controls in the hot-plate test but not in the tail-flick assay. Large differences in the effects of nicotine were also observed with both tests for the seven mouse strains. A/J and 129 mice were 6- to 8-fold more sensitive than CBA and BALB mice. In addition, B6CBAF1 hybrid mice were even less sensitive than CBA mice. Nicotinic binding sites were measured in three spinal cord regions and the hindbrain of the inbred strains. Significant differences in cytisine-sensitive, high affinity [¹²⁵I]epibatidine binding site levels (α₂β₂* subtypes), but not in ¹²⁵I-α-bungarotoxin binding (α7* subtypes), were observed. Significant negative correlations between cytisine-sensitive [¹²⁵I]epibatidine binding and nicotine ED50 for both tests were noted. Our results indicate that α₄β₂* acetylcholine nicotinic receptors (nAChR) are important in mediating nicotine analgesia in supraspinal responses, while also showing that α₄β₂*-nAChR and at least one other nAChR subtype appear to modulate spinal actions
Trapped ion mode in toroidally rotating plasmas
The influence of radially sheared toroidal flows on the Trapped Ion Mode (TIM) is investigated using a two-dimensional eigenmode code. These radially extended toroidal microinstabilities could significantly influence the interpretation of confinement scaling trends and associated fluctuation properties observed in recent tokamak experiments. In the present analysis, the electrostatic drift kinetic equation is obtained from the general nonlinear gyrokinetic equation in rotating plasmas. In the long perpendicular wavelength limit k{sub {tau}}{rho}{sub bi} {much_lt} 1, where {rho}{sub bi} is the average trapped-ion banana width, the resulting eigenmode equation becomes a coupled system of second order differential equations nmo for the poloidal harmonics. These equations are solved using finite element methods. Numerical results from the analysis of low and medium toroidal mode number instabilities are presented using representative TFTR L-mode input parameters. To illustrate the effects of mode coupling, a case is presented where the poloidal mode coupling is suppressed. The influence of toroidal rotation on a TFTR L-mode shot is also analyzed by including a beam species with considerable larger temperature. A discussion of the numerical results is presented
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Visible charge exchange recombination spectroscopy on TFTR
Visible charge exchange recombination spectroscopy is routinely used to measure the time evolution of the ion temperature (T{sub i}) and toroidal rotation velocity (v{sub {phi}}) profiles on TFTR. These measurements are made with the CHERS diagnostic, a fiber-optically coupled spectrometer equipped with a two-dimensional photodiode array detector which provides both spectral and spatial resolution. The instrumentation, data analysis techniques, and examples of T{sub i} and v{sub {phi}} measurements are described. Recently, CHERS has been used to perform impurity transport experiments: radial profiles of diffusivities and convective velocities for helium and iron have been deduced from measurements of the time evolutions of He{sup 2+} and Fe{sup 24+} profiles following impurity injection. Examples of these measurements are given. 12 refs., 8 figs
Diagnostic suite used for magnetohydrodynamics equilibrium reconstruction on the PEGASUS
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