Mobile impurities interacting with a few one-dimensional lattice bosons

We report a comprehensive study of the ground-state properties of one and two bosonic impurities immersed in small one-dimensional optical lattices loaded with a few interacting bosons. We model the system with a two-component Bose-Hubbard model and solve the problem numerically by means of the exact diagonalization method. We report polaron and bipolaron energies across the superfluid to Mott-insulator transition and confirm the formation of bipolaron bound states induced by repulsive interactions. In particular, we found that an insulator bath induces tightly bound bipolarons, whereas a superfluid bath induces shallower bound states.Comment: 22 pages, 13 figure

Simple impact craters: are they exhibiting only symmetric elevation profiles? Analysis of the detected shapes in craters with diameter between 10 and 20 km

Usually, scholars are determining three main classes of impact craters: simple, complex, and meteoric basins, where the main differences are in the crater size but also the geomorphological features. It is assumed that in most of the cases simple craters are exhibiting simple bowl shape of the cavity unless modified by external factors, e.g. landslides. More complex features are notable when the crater size is becoming bigger. However, upon investigation, more complicated and asymmetric shapes were noted to be present in already categorized simple craters. In this work is proposed a general subdivision classification of the simple craters based on their elevation profile shapes

Leveraging Existing Plasma Simulation Codes

This paper describes the process of wrapping existing scientific codes in the domain of plasma physics simulations through the use of the Sun’s Java Native Interface. We have created a Java front-end for a particular functionality, offered by legacy native libraries, in order to achieve reusability and interoperability without having to rewrite these libraries. The technique, introduced in this paper, includes two approaches – the one-to-one mapping for wrapping a number of native functions, and using peer classes for wrapping native data structures

Mobile impurities interacting with a few one-dimensional lattice bosons

We report a comprehensive study of the ground-state properties of one and two bosonic impurities immersed in small one-dimensional optical lattices loaded with a few interacting bosons. We model the system with a two-component Bose–Hubbard model and solve the problem numerically by means of the exact diagonalization method. We report binding energies of one and two impurities across the superfluid (SF) to Mott-insulator transition and confirm the formation of two-body bound states of impurities induced by repulsive interactions. In particular, we found that an insulator bath induces tightly bound di-impurity dimers, whereas a SF bath induces shallower bound states

Recognition of landslides in lunar impact craters

Landslides have been observed on several planets and minor bodies of the solar System, including the Moon. Notwithstanding different types of slope failures have been studied on the Moon, a detailed lunar landslide inventory is still pending. Undoubtedly, such will be in a benefit for future geological and morphological studies, as well in hazard, risk and suscept- ibility assessments. A preliminary survey of lunar landslides in impact craters has been done using visual inspection on images and digital elevation model (DEM) (Brunetti et al. 2015) but this method suffers from subjective interpretation. A new methodology based on polynomial interpolation of crater cross-sections extracted from global lunar DEMs is presented in this paper. Because of their properties, Chebyshev polynomials were already exploited for para- metric classification of different crater morphologies (Mahanti et al., 2014). Here, their use has been extended to the discrimination of slumps in simple impact craters. Two criteria for recognition have provided the best results: one based on fixing an empirical absolute thresholding and a second based on statistical adaptive thresholding. The application of both criteria to a data set made up of 204 lunar craters’ cross-sections has demonstrated that the former criterion provides the best recognition

Primary, nodal, marginal zone lymphoma of a woman’s left breast imitated fibroadenoma

BackgroundPrimary breast lymphoma is a rare malignant neoplastic disease, accounting for around 0.5 per cent of all malignant diseases of that organ, and also 2.2 per cent of extranodal lymphomas. The most common histopathological types are: diffuse large B-cell lymphoma, extranodal B-cell marginal zone lymphoma and MALT lymphoma. The primary affected group is with median age between 55 and 62 years. The clinical manifestation is usually of a tumour process in the affected breast.Case presentationHere we present an extremely rare case of a 68 years old woman with primary, nodal, B-cell, marginal zone lymphoma of the left breast, presenting itself under the mask of a benign tumour process, found accidentally following a histopathological examination of excisional samples.ConclusionsPrimary, nodal, marginal zone, B-cell lymphoma of the breast is extremely rare. Its clinical and mammographic presentation completely overlaps with those of fibroadenoma, which makes diagnosing it preoperatively practically impossible. Main treatment method here is not surgical, but radiological and chemotherapeutic