1,035 research outputs found
Insect pests of tea and their management
Globally, 1031 species of arthropods are associated with the intensively
managed tea Camellia sinensis (L.) O. Kuntze monoculture. All parts of
the plant, leaf, stem, root, flower, and seed, are fed upon by at least one
pest species, resulting in an 11%ā55% loss in yield if left unchecked.
There has been heavy use of organosynthetic pesticides since the 1950s
to defend the plant against these pests, leading to rapid conversion of
innocuous species into pests, development of resistance, and undesirable
pesticide residues in made tea. As a result of importer and consumer
concerns, pesticide residues have become a major problem for the tea
industry. Integrated pest management (IPM) may help to overcome the
overuse of pesticides and subsequent residues.We review the advances
made in our understanding of the biology and ecology of major insect
and mite pests of tea, host plant resistance, cultural practices, biocontrol
measures, and need-based application of botanicals and safer pesticides
to understand the present status of IPM and to identify future challenges
to improvement
Isgur-Wise function in a QCD potential model with coulombic potential as perturbation
We study heavy light mesons in a QCD inspired quark model with the Cornell
potential. Here we consider the linear term
as the parent and i.e.the Coloumbic part as the
perturbation.The linear parent leads to Airy function as the unperturbed
wavefunction. We then use the Dalgarno method of perturbation theory to obtain
the total wavefunction corrected upto first order with Coulombic peice as the
perturbation.With these wavefunctions, we study the Isgur-Wise function and
calculate its slope and curvature.Comment: paper has been modified in Airy functions calculation upto o(r^3
Size-Dependent Lattice Structure and Confinement Properties in CsPbIā Perovskite Nanocrystals: Negative Surface Energy for Stabilization
CsPbIā nanocrystals with narrow size distributions were prepared to study the size-dependent properties. The nanocrystals adopt the perovskite (over the nonperovskite orthorhombic) structure with improved stability over thin-film materials. Among the perovskite phases (cubic Ī±, tetragonal Ī², and orthorhombic Ī³), the samples are characterized by the Ī³ phase, rather than Ī±, but may have a size-dependent average tilting between adjacent octahedra. Size-dependent lattice constants systematically vary 3% across the size range, with unit cell volume increasing linearly with the inverse of size to 2.1% for the smallest size. We estimate the surface energy to be from ā3.0 to ā5.1 eV nmā»Ā² for ligated CsPbIā nanocrystals. Moreover, the size-dependent bandgap is best described using a nonparabolic intermediate confinement model. We experimentally determine the bulk bandgap, effective mass, and exciton binding energy, concluding with variations from the bulk Ī±-phase values. This provides a robust route to understanding Ī³-phase properties of CsPbIā
Review and selection of recycling technology for lithium-ion batteries made for EV application - A life cycle perspective
The lithium-ion battery is the source of renewable energy and the battery-operated vehicles are gradually replacing fossil fuel-based automobiles. Though Electric Vehicles (EVs) do not produce emissions through tailpipes, yet the issues pertaining to recycling of the lithium-ion batteries employed in EVs lead to environmental burdens. The EVs sale in global market exceeds a million per year. It is estimated that there will be a huge amount of unprocessed waste of lithium-ion battery packs when these vehicles retire after the service life. The re-use of batteries can reduce the waste generation, however the cumulative burden of the battery wastes will be substantial considering the increasing trend of the electric-vehicle market. There are various methods employed for recycling of lithium-ion batteries. The existing literature reports that their environmental impact is significant. The challenge is to choose a method which causes minimal disruptions to the environment in terms of cost, pollution and energy consumption, which can be effectively addressed by a life cycle analysis based selection method. In this paper, a review is conducted on the current recycling technologies and WPM (Weighted Product Method) based Multi-Criteria Approach is employed to optimally choose the best recycling process for lithium-ion batteries from life cycle perspective
Multi-Scale Convolutional Neural Network for Accurate Corneal Segmentation in Early Detection of Fungal Keratitis.
Microbial keratitis is an infection of the cornea of the eye that is commonly caused by prolonged contact lens wear, corneal trauma, pre-existing systemic disorders and other ocular surface disorders. It can result in severe visual impairment if improperly managed. According to the latest World Vision Report, at least 4.2 million people worldwide suffer from corneal opacities caused by infectious agents such as fungi, bacteria, protozoa and viruses. In patients with fungal keratitis (FK), often overt symptoms are not evident, until an advanced stage. Furthermore, it has been reported that clear discrimination between bacterial keratitis and FK is a challenging process even for trained corneal experts and is often misdiagnosed in more than 30% of the cases. However, if diagnosed early, vision impairment can be prevented through early cost-effective interventions. In this work, we propose a multi-scale convolutional neural network (MS-CNN) for accurate segmentation of the corneal region to enable early FK diagnosis. The proposed approach consists of a deep neural pipeline for corneal region segmentation followed by a ResNeXt model to differentiate between FK and non-FK classes. The model trained on the segmented images in the region of interest, achieved a diagnostic accuracy of 88.96%. The features learnt by the model emphasize that it can correctly identify dominant corneal lesions for detecting FK
Nabla fractional derivative and fractional integral on time scales
In this paper, we introduce the nabla fractional derivative and fractional integral on time scales in the RiemannāLiouville sense. We also introduce the nabla fractional derivative in GrĆ¼nwaldāLetnikov sense. Some of the basic properties and theorems related to nabla fractional calculus are discussed.publishe
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