11,892 research outputs found
Technological behaviour in the early Acheulean of EF-HR (Olduvai Gorge, Tanzania)
Technological strategies of early humans are discussed in the light of a recently excavated stone tool assemblage from EF-HR, an archaeological site older than 1.33 Ma at Olduvai Gorge, Tanzania. Renewed fieldwork at EF-HR has unearthed a lithic collection containing over 2300 artefacts (including a hundred handaxes in stratigraphic position), which represents one of the largest assemblages for the early Acheulean in East Africa. Our technological study shows co-occurrence of two distinctive reduction sequences in the same assemblage, one aimed at obtaining small flakes and the other focused on the production of large, thick, heavy flakes that were then used as blanks for handaxe shaping. Flaking of small cores is expedient and low intensity, and knapping methods are similar to those observed in earlier Oldowan assemblages. Large Cutting Tools (LCTs) show no evidence of planform and biconvex symmetry, and shaping sequences are brief and discontinuous, indicating short use-lives for handaxes. Bifaces are rare and atypical. Recurrent morphotypes are knives, which are poorly-shaped, scraper-like, large-sized handaxes. Despite the apparent expediency of EF-HR handaxe production, a closer inspection of the interplay between debitage and façonnage stages reveals remarkably standardized procedural patterns. Large Cutting Tool blanks were produced following fixed knapping rules resulting in flakes with a specific morphology and mass distribution. Adapted to the idiosyncrasies of each blank, shaping was almost invariably imposed over the same areas in all LCTs and sought to produce morphotypes that, technologically, are remarkably identical to each other. This strongly supports the existence of mental templates and technical rules that were systematically practiced in LCT production at EF-HR, and underscore the structured nature of technological behaviour at the onset of the Acheulean in East Africa
Oldowan technological behaviour at HWK EE (Olduvai Gorge, Tanzania)
HWK EE (Olduvai Gorge, Tanzania) is a late Oldowan site dated to ∼1.7 Ma that contains a large fossil and lithic assemblage. This paper reports on the technology of the recently excavated stone tool collection, over 18,000 pieces. Our results indicate that reduction sequences were generally short, flaking productivity was low, and knapping methods were largely simple and expedient, lacking the technical skills observed in other Oldowan assemblages. Conspicuous differences are observed in the chaînes opératoires of the three main raw materials used at HWK EE: the quartzite reduction sequence can be reconstructed in full at the site, most of the lava detached pieces are missing, and there is a preferential use of chert for retouched tools. This portrays a composite picture, where knapping expediency and low productivity are accompanied by raw material selectivity and consistent presence of retouched artefacts. Coexistence of these features in the same assemblage leads us to question the monolithic structure of the Oldowan techno-complex, and highlights the kaleidoscopic nature of technological strategies at Olduvai immediately before the earliest Acheulean handaxes appear in the sequence
Theory of Weak Hypernuclear Decay
The weak nonmesonic decay of Lambda-hypernuclei is studied in the context of
a one-meson-exchange model. Predictions are made for the decay rate, p/n
stimulation ratio and the asymmetry in polarized hypernuclear decay.Comment: Standard 41 page Latex fil
Intrinsic switching field distribution of arrays of Ni80Fe20 nanowires probed by magnetic force microscopy
The progress of magnetization reversal of weakly packed ferromagnetic
Ni80Fe20 nanowire arrays of different diameters (40, 50, 70 and 100 nm)
electrodeposited in polycarbonate membranes was studied by magnetic force
microscopy (MFM). For such a low packing density of nanomagnets, the dipolar
interactions between neighbouring wires can be neglected. The intrinsic
switching field distribution has been extracted from in situ MFM images and its
width was found to be considerably smaller than for densely packed nanowire
arrays.Comment: 4 pages, 5 figures. To appear in Journal of Superconductivity and
Novel Magnetis
Magnetic force microscopy investigation of arrays of nickel nanowires and nanotubes
The magnetic properties of arrays of nanowires (NWs) and nanotubes (NTs), 150
nm in diameter, electrodeposited inside nanoporous polycarbonate membranes are
investigated. The comparison of the nanoscopic magnetic force microscopy (MFM)
imaging and the macroscopic behavior as measured by alternating gradient force
magnetometry (AGFM) is made. It is shown that MFM is a complementary technique
that provides an understanding of the magnetization reversal characteristics at
the microscopic scale of individual nanostructures. The local hysteresis loops
have been extracted by MFM measurements. The influence of the shape of such
elongated nanostructures on the dipolar coupling and consequently on the
squareness of the hysteresis curves is demonstrated. It is shown that the
nanowires exhibit stronger magnetic interactions than nanotubes. The
non-uniformity of the magnetization states is also revealed by combining the
MFM and AGFM measurements.Comment: 7 pages, 5 figure
Existence of an information unit as a postulate of quantum theory
Does information play a significant role in the foundations of physics?
Information is the abstraction that allows us to refer to the states of systems
when we choose to ignore the systems themselves. This is only possible in very
particular frameworks, like in classical or quantum theory, or more generally,
whenever there exists an information unit such that the state of any system can
be reversibly encoded in a sufficient number of such units. In this work we
show how the abstract formalism of quantum theory can be deduced solely from
the existence of an information unit with suitable properties, together with
two further natural assumptions: the continuity and reversibility of dynamics,
and the possibility of characterizing the state of a composite system by local
measurements. This constitutes a new set of postulates for quantum theory with
a simple and direct physical meaning, like the ones of special relativity or
thermodynamics, and it articulates a strong connection between physics and
information.Comment: Published version - 6 pages, 3 appendices, 3 figure
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