9,381 research outputs found
Vibrations and diverging length scales near the unjamming transition
We numerically study the vibrations of jammed packings of particles
interacting with finite-range, repulsive potentials at zero temperature. As the
packing fraction is lowered towards the onset of unjamming at
, the density of vibrational states approaches a non-zero value in
the limit of zero frequency. For , there is a crossover
frequency, below which the density of states drops towards zero.
This crossover frequency obeys power-law scaling with .
Characteristic length scales, determined from the dominant wavevector
contributing to the eigenmode at , diverge as power-laws at the
unjamming transition.Comment: Submitted to PRL, 4 pages + 7 .eps figure
Structural signatures of the unjamming transition at zero temperature
We study the pair correlation function for zero-temperature,
disordered, soft-sphere packings just above the onset of jamming. We find
distinct signatures of the transition in both the first and split second peaks
of this function. As the transition is approached from the jammed side (at
higher packing fraction) the first peak diverges and narrows on the small-
side to a delta-function. On the high- side of this peak, decays as a
power-law. In the split second peak, the two subpeaks are both singular at the
transition, with power-law behavior on their low- sides and step-function
drop-offs on their high- sides. These singularities at the transition are
reminiscent of empirical criteria that have previously been used to distinguish
glassy structures from liquid ones.Comment: 8 pages, 13 figure
Reply to "Comment on `Jamming at zero temperature and zero applied stress: The epitome of disorder' "
We answer the questions raised by Donev, Torquato, Stillinger, and Connelly
in their "Comment on "Jamming at zero temperature and zero applied stress: The
epitome of disorder.' " We emphasize that we follow a fundamentally different
approach than they have done to reinterpret random close packing in terms of
the "maximally random jammed" framework. We define the "maximally random jammed
packing fraction" to be where the largest number of initial states, chosen
completely randomly, have relaxed final states at the jamming threshold in the
thermodynamic limit. Thus, we focus on an ensemble of states at the jamming
threshold, while DTSC are interested in determining the amount of order and
degree of jamming for a particular configuration. We also argue that
soft-particle systems are as "clean" as those using hard spheres for studying
jammed packings and point out the benefits of using soft potentials
Regulation and social practice online
© 2016 Taylor & Francis. This article argues that everyday media practices are foundational to regulation on social media platforms. Beginning from a practice theory perspective, supported by qualitative research conducted on Facebook and Reddit, this paper shows how individual interactions with the platform and with other people on the site shape central regulatory norms on these sites. We suggest that our focus on practice complements existing studies that consider how regulation operates on social media platforms and shows how both practices and algorithms operate in conversation with one another in order to govern these sites. This research sets out an alternative trajectory of regulation, which is not based in law or privately established processes (such as EULAs, ToS or flags) but instead one grounded in the everyday practices of sociality, reciprocity, and perhaps even the maintenance of a particular community ideal
Generalized Intelligent States for an Arbitrary Quantum System
Generalized Intelligent States (coherent and squeezed states) are derived for
an arbitrary quantum system by using the minimization of the so-called
Robertson-Schr\"odinger uncertainty relation. The Fock-Bargmann representation
is also considered. As a direct illustration of our construction, the
P\"oschl-Teller potentials of trigonometric type will be shosen. We will show
the advantage of the Fock-Bargmann representation in obtaining the generalized
intelligent states in an analytical way. Many properties of these states are
studied
Do wildflower strips enhance pest control in organic cabbage?
Within this project we assess whether wildflower strips and companion plants increase the control of cabbage pests Plutella xylostella L. (Lepidoptera: Plutellidae), Mamestra brassicae L. (Lepidoptera: Noctuidae) and Pieris rapae L. (Lepidoptera: Pieridae) by (1) naturally occurring parasitoids and predators and (2) massâreleasedn Trichogramma brassciae (Bezdenko) (Hymenoptera: Trichogrammatidae) parasitoids. Two organic cabbage fields were used for this study: adjacent to each field a wildflower strip was sown and companion plants (Centaurea cyanus L. (Asteraceae)) intermixed within the crop. Within each field ~15,000 M. brassicae eggs were placed out to determine the parasitism rates by massâreleased T. brassicae and to assess the levels of egg predation. Over 1,000 lepidopteran larvae were collected and screened for hymenopteran and tachinid parasitoid DNA using a multiplex PCR assay. Invertebrate generalist predators (n=1,063) were collected for DNAâbased gut content analysis. The wildflower strip had a significant positive effect on M. brassicae egg parasitism rates as rates increased 5âfold in the vicinity to the strip. Moreover, companion plants enhanced invertebrate predation on M. brassicae eggs. Both, the release of T. brassicae and the use of companion plants, however, did not significantly increase egg parasitism rates. The infestation of plants by caterpillars increased with distance to the wildflower strip and there was a trend of decreasing larval parasitism rates with distance to the strip. Currently the invertebrate predators are being molecularly analysed to assess predation on unparasitized and parasitized lepidopteran pests
Two-lane traffic rules for cellular automata: A systematic approach
Microscopic modeling of multi-lane traffic is usually done by applying
heuristic lane changing rules, and often with unsatisfying results. Recently, a
cellular automaton model for two-lane traffic was able to overcome some of
these problems and to produce a correct density inversion at densities somewhat
below the maximum flow density. In this paper, we summarize different
approaches to lane changing and their results, and propose a general scheme,
according to which realistic lane changing rules can be developed. We test this
scheme by applying it to several different lane changing rules, which, in spite
of their differences, generate similar and realistic results. We thus conclude
that, for producing realistic results, the logical structure of the lane
changing rules, as proposed here, is at least as important as the microscopic
details of the rules
Regenerating the strength of thermally recycled glass fibres using hot sodium hydroxide
Results are presented from the ReCoVeR project on the regeneration of the strength of thermally conditioned glass fibres. Thermal recycling of end-of-life glass fibre reinforced composites or composite manufacturing waste delivers fibres with virtually no residual strength or value. Composites produced from such fibres also have extremely poor mechanical performance. Data is presented showing that a short hot sodium hydroxide solution treatment of such recycled fibres can more than triple their strength and restore their ability to act as an effective reinforcement in second life composite materials. The implications of these results for real materials reuse of recycled glass fibres as replacement for pristine reinforcement fibres are discussed
- âŠ