756 research outputs found
Fast High Resolution Echelle Spectroscopy Of A Laboratory Plasma
An echelle diffraction grating and a multianode photomultiplier tube are paired to construct a high resolution (R=lambda/delta lambda approximate to 2.5x10(4)) spectrograph with fast time response for use from the UV through the visible. This instrument has analyzed the line shape of C III impurity ion emission at 229.687 nm over the lifetime (approximate to 100 mu s) of the hydrogen plasmas produced at SSX. The ion temperature and line of sight average velocity are inferred from the observed thermal broadening and Doppler shift of the line. The time resolution of these measurements is about 1 mu s, sufficient to observe the fastest magnetohydrodynamic activity
Mott transition, antiferromagnetism, and unconventional superconductivity in layered organic superconductors
The phase diagram of the layered organic superconductor
-(ET)Cu[N(CN)]Cl has been accurately measured from a
combination of H NMR and AC susceptibility techniques under helium gas
pressure. The domains of stability of antiferromagnetic and superconducting
long-range orders in the pressure {\it vs} temperature plane have been
determined. Both phases overlap through a first-order boundary that separates
two regions of inhomogeneous phase coexistence. The boundary curve is found to
merge with another first order line related to the metal-insulator transition
in the paramagnetic region. This transition is found to evolve into a crossover
regime above a critical point at higher temperature. The whole phase diagram
features a point-like region where metallic, insulating, antiferromagnetic and
non s-wave superconducting phases all meet.Comment: 4 pages, 6 figures, Revte
Two Fluid Effects On Three-Dimensional Reconnection In The Swarthmore Spheromak Experiment With Comparisons To Space Data
Several new experimental results are reported from spheromak merging studies at the Swarthmore SpheromakExperiment[M. R. Brown, Phys. Plasmas6, 1717 (1999)] with relevance to three-dimensional (3D) reconnection in laboratory and space plasmas. First, recent velocity measurements of impurity ions using ion Doppler spectroscopy are reported. Bidirectional outflow at nearly the AlfvĂ©n speed is clearly observed. Second, experimental measurements of the out-of-plane magnetic field in a reconnection volume showing a quadrupolar structure at the ion inertial scale are discussed. Third, a measurement of in-plane Hall electric field and nonideal terms of the generalized Ohmâs law in a reconnection volume of a weakly collisional laboratory plasma is presented. Time resolved vector magnetic field measurements on a 3D lattice [B(r,t)] enables evaluation of the various terms. Results show that the Hall electric field dominates everywhere (JĂBâne) and also exhibits a quadrupolar structure at the ion inertial scale; resistive and electron inertia terms are small. Each of these is related to and compared with similar measurements in a solar or space context
NMR evidence for very slow carrier density fluctuations in the organic metal (TMTSF)ClO
We have investigated the origin of the large increase in spin-echo decay
rates for the Se nuclear spins at temperatures near to in the
organic superconductor (TMTSF)ClO. The measured angular dependence of
demonstrates that the source of the spin-echo decays lies with
carrier density fluctuations rather than fluctuations in TMTSF molecular
orientation. The very long time scales are directly associated with the
dynamics of the anion ordering occurring at , and the inhomogeneously
broadened spectra at lower temperatures result from finite domain sizes. Our
results are similar to observations of line-broadening effects associated with
charge-ordering transitions in quasi-two dimensional organic conductors.Comment: 5 pages, 4 figure
Competition and coexistence of bond and charge orders in (TMTTF)2AsF6
(TMTTF)2AsF6 undergoes two phase transitions upon cooling from 300 K. At
Tco=103 K a charge-ordering (CO) occurs, and at Tsp(B=9 T)=11 K the material
undergoes a spin-Peierls (SP) transition. Within the intermediate, CO phase,
the charge disproportionation ratio is found to be at least 3:1 from carbon-13
NMR 1/T1 measurements on spin-labeled samples. Above Tsp, up to about 3Tsp,
1/T1 is independent of temperature, indicative of low-dimensional magnetic
correlations. With the application of about 0.15 GPa pressure, Tsp increases
substantially, while Tco is rapidly suppressed, demonstrating that the two
orders are competing. The experiments are compared to results obtained from
calculations on the 1D extended Peierls-Hubbard model.Comment: 4 pages, 5 figure
During postnatal development endogenous neurosteroids influence GABA-ergic neurotransmission of mouse cortical neurons
AbstractAs neuronal development progresses, GABAergic synaptic transmission undergoes a defined program of reconfiguration. For example, GABAA receptor (GABAAR)-mediated synaptic currents, (miniature inhibitory postsynaptic currents; mIPSCs), which initially exhibit a relatively slow decay phase, become progressively reduced in duration, thereby supporting the temporal resolution required for mature network activity. Here we report that during postnatal development of cortical layer 2/3 pyramidal neurons, GABAAR-mediated phasic inhibition is influenced by a resident neurosteroid tone, which wanes in the second postnatal week, resulting in the brief phasic events characteristic of mature neuronal signalling. Treatment of cortical slices with the immediate precursor of 5α-pregnan-3α-ol-20-one (5α3α), the GABAAR-inactive 5α-dihydroprogesterone, (5α-DHP), greatly prolonged the mIPSCs of P20 pyramidal neurons, demonstrating these more mature neurons retain the capacity to synthesize GABAAR-active neurosteroids, but now lack the endogenous steroid substrate. Previously, such developmental plasticity of phasic inhibition was ascribed to the expression of synaptic GABAARs incorporating the α1 subunit. However, the duration of mIPSCs recorded from L2/3 cortical neurons derived from α1 subunit deleted mice, were similarly under the developmental influence of a neurosteroid tone. In addition to principal cells, synaptic GABAARs of L2/3 interneurons were modulated by native neurosteroids in a development-dependent manner. In summary, local neurosteroids influence synaptic transmission during a crucial period of cortical neurodevelopment, findings which may be of importance for establishing normal network connectivity
Dipole Trapped Spheromak In A Prolate Flux Conserver
This paper reports the observation and characterization of a spheromak formed in the Swarthmore Spheromak Experiment (SSX, [M. R. Brown, Phys. Plasmas 6, 1717 (1999)]) and trapped in a simple dipole magnetic field. The spheromak is studied in a prolate (tilt unstable) 0.4 m diameter, 0.6 m length copper flux conserver in SSX. This plasma does not tilt, despite the prolate flux conserver. The spheromak is characterized by a suite of magnetic probe arrays for magnetic structure B(r,t), ion Doppler spectroscopy for T-i and flow, and interferometry for n(e). Three-dimensional magnetohydrodynamics simulations of this configuration verify its gross sta-bility. (c) 2006 American Institute of Physics
Prospectus, May 2, 1979
TIPS FOR TRAVELING ABROAD; Townsend running for president: Ends one-year probation; Tangora running for stugo president; McDonald seeks senator re-election, runs for Campus Organization seat; Townsend running for president, concerned about use of activity fee; Brown to run for v.p.; Woodside for experience in student government; Rowlen will not become puppet; Parkland College News: Program on arthritis coming, PC dental classes to be capped May 6, Workshop here today, Hot dog sale, raffle, Vaughn \u27gives a darn\u27; PC speech team finishes season; The Looking Glass: Sexes at war?; Women discuss ERA in Illinois; Blood bank on campus; Rock \u27n roll\u27s yes gets positive review; Mangione is appearing in C-U; Puts out one heck of a show, though: Ecept on stage to old fans, Joel is a stranger no more; Mexicana offers discounts to students who visit Mexico; Traveling abroad: Tips for the summer traveler; Hassle-Free Trips; How\u27s Your Travel IQ?; \u27Tales and Things,\u27 jazz, and symphonies highlight Krannert events this week; Convocations Schedule For May; Challenge from Prospectus; Let in fresh air and sunshine; Student art work displayed in show; Woods dedication on Sun., May 6; Classifieds; HaHaHaHaHaHaHaHaHaHaHaHaHa; Baseball team disappointed after 11-3 loss; PC track out for revenge as they travel to Napervillehttps://spark.parkland.edu/prospectus_1979/1017/thumbnail.jp
Nucleation of -Branes and Fundamental Strings
We construct a solution to the low-energy string equations of motion in five
dimensions that describes a circular loop of fundamental string exponentially
expanding in a background electric -field. Euclideanising this gives an
instanton for the creation of a loop of fundamental string in a background
-field, and we calculate the rate of nucleation. Solutions describing
magnetically charged strings and -branes, where the gauge field comes from
Kaluza-Klein reduction on a circle, are also constructed. It is known that a
magnetic flux tube in four (reduced) spacetime dimensions is unstable to the
pair creation of Kaluza-Klein monopoles. We show that in dimensions,
magnetic ``fluxbranes" are unstable to the nucleation of a magnetically
charged spherical -brane. In ten dimensions the instanton describes the
nucleation of a Ramond-Ramond magnetically charged six-brane in type IIA string
theory. We also find static solutions describing spherical charged -branes
or fundamental strings held in unstable equilibrium in appropriate background
fields. Instabilities of intersecting magnetic fluxbranes are also discussed.Comment: 28 pages, harvmac (b), reference added, typos correcte
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