36,643 research outputs found
Nuclear magnetic resonance cryoporometry
Nuclear Magnetic Resonance (NMR) cryoporometry is a technique for non-destructively determining pore size distributions in porous media through the observation of the depressed melting point of a confined liquid. It is suitable for measuring pore diameters in the range 2 nm-1 mu m, depending on the absorbate. Whilst NMR cryoporometry is a perturbative measurement, the results are independent of spin interactions at the pore surface and so can offer direct measurements of pore volume as a function of pore diameter. Pore size distributions obtained with NMR cryoporometry have been shown to compare favourably with those from other methods such as gas adsorption, DSC thermoporosimetry, and SANS. The applications of NMR cryoporometry include studies of silica gels, bones, cements, rocks and many other porous materials. It is also possible to adapt the basic experiment to provide structural resolution in spatially-dependent pore size distributions, or behavioural information about the confined liquid
Potential for measuring the longitudinal and lateral profile of muons in TeV air showers with IACTs
Muons are copiously produced within hadronic extensive air showers (EAS)
occurring in the Earth's atmosphere, and are used by particle air shower
detectors as a means of identifying the primary cosmic ray which initiated the
EAS. Imaging Atmospheric Cherenkov Telescopes (IACTs), designed for the
detection of gamma-ray initiated EAS for the purposes of Very High Energy (VHE)
gamma-ray astronomy, are subject to a considerable background signal due to
hadronic EAS. Although hadronic EAS are typically rejected for gamma-ray
analysis purposes, single muons produced within such showers generate clearly
identifiable signals in IACTs and muon images are routinely retained and used
for calibration purposes. For IACT arrays operating with a stereoscopic
trigger, when a muon triggers one telescope, other telescopes in IACT arrays
usually detect the associated hadronic EAS. We demonstrate for the first time
the potential of IACT arrays for competitive measurements of the muon content
of air showers, their lateral distribution and longitudinal profile of
production slant heights in the TeV energy range. Such information can provide
useful input to hadronic interaction models.Comment: 15 pages, 11 figures, 2 tables, accepted for publication in
Astroparticle Physic
Rotation of Coulomb crystals in a magnetized inductively coupled complex plasma
Under suitable conditions, micron-sized dust particles introduced into inductively coupled argon plasma form a stable microscopic crystal lattice, known as a Coulomb (or plasma) crystal. In the experiment described, an external axial magnetic field was applied to various configurations of Coulomb crystal, including small crystal lattices consisting of one to several particles, and large crystal lattices with many hundreds of particles. The crystals were observed to rotate collectively under the influence of the magnetic field. This paper describes the experimental procedures and the preliminary results of this investigation
Mission-oriented requirements for updating MIL-H-8501. Volume 2: STI background and rationale
A supplement to the structure of a new flying and ground handling qualities specification for military rotorcraft structure is presented in order to explain the background and rationale for the specification structure, the proposed forms of criteria, and the status of the existing data base. Critical gaps in the data base for the new structure are defined, and recommendations are provided for the research required to address the most important of these gaps
Communications of the Lunar and Planetary Laboratory, volume 4, part 3 - Ubvrijkl photometry of the bright stars
Multicolor photometric analysis of bright stars - table
History of Prepackaging Fresh Fruits and Vegetables
"Mimeograph no. A.E. 254."Includes bibliographical references.Mode of access: Internet
Alternate forms of cytochrome c in the mi-1 (poky) mutant of Neurospora crassa
Alternate forms of cytochrome c in the mi-1 (poky) mutant of Neurospora crass
A Charge and Spin Readout Scheme For Single Self-Assembled Quantum Dots
We propose an all optical spin initialization and readout concept for single
self assembled quantum dots and demonstrate its feasibility. Our approach is
based on a gateable single dot photodiode structure that can be switched
between charge and readout mode. After optical electron generation and storage,
we propose to employ a spin-conditional absorption of a circularly polarized
light pulse tuned to the single negatively charged exciton transition to
convert the spin information of the resident electron to charge occupancy.
Switching the device to the charge readout mode then allows us to probe the
charge state of the quantum dot (1e, 2e) using non-resonant luminescence. The
spin orientation of the resident electron is then reflected by the
photoluminescence yield of doubly and singly charged transitions in the quantum
dot. To verify the feasibility of this spin readout concept, we have applied
time gated photoluminescence to confirm that selective optical charging and
efficient non perturbative measurement of the charge state can be performed on
the same dot. The results show that, by switching the electric field in the
vicinity of the quantum dot, the charging rate can be switched between a regime
of efficient electron generation and a readout regime, where the charge
occupancy and, therefore, the spin state of the dot can be tested via PL over
millisecond timescales, without altering it.Comment: 20 Pages, 6 Figures, submitted to Phys. Rev.
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