Exact diagonalization results for an anharmonically trapped Bose-Einstein condensate

We consider bosonic atoms that rotate in an anharmonic trapping potential. Using numerical diagonalization of the Hamiltonian, we identify the various phases of the gas as the rotational frequency of the trap and the coupling between the atoms are varied.Comment: 7 pages, RevTex, 10 figure

Mixtures of Bose gases under rotation

We examine the rotational properties of a mixture of two Bose gases. Considering the limit of weak interactions between the atoms, we investigate the behavior of the system under a fixed angular momentum. We demonstrate a number of exact results in this many-body system.Comment: 4 pages, RevTex, 6 figure

Persistent currents in Bose gases confined in annular traps

We examine the problem of stability of persistent currents in a mixture of two Bose gases trapped in an annular potential. We evaluate the critical coupling for metastability in the transition from quasi-one to two-dimensional motion. We also evaluate the critical coupling for metastability in a mixture of two species as function of the population imbalance. The stability of the currents is shown to be sensitive to the deviation from one-dimensional motion.Comment: 6 pages, 4 figure

Mixtures of Bose Gases Confined in a Ring Potential

The rotational properties of a mixture of two distinguishable Bose gases that are confined in a ring potential provide novel physical effects that we demonstrate in this study. Persistent currents are shown to be stable for a range of the population imbalance between the two components at low angular momentum. At higher values of the angular momentum, even small admixtures of a second species of atoms make the persistent currents highly fragile.Comment: Final form of the published article, 4 pages, 2 figure

Teoria e prassi della prova. Profili processual-filosofici.

Il tema della prova viene analizzato con particolare riguardo all''evoluzione delle regole di ammissibilit\ue0 e di valutazione nei diversi contesti storico-culturali, da cui hanno tratto origine e connotazione il sistema processuale accusatorio e quello inquisitori

A comparative clinical study to evaluate the efficacy of Dashamoola Niruha Basti with Rasna-Erandadi Niruha Basti in the management of Gridhrasi vis~a~vis sciatica

Gridhrasi is one among Shoola Pradhana Vatavyadhi, mentioned under Vataja Nanatmaja Vyadhi. Sciatica is defined as radiating pain along the course of sciatic nerve and is felt in the back, buttocks, posterior of the thighs, legs and foot caused due to disc protrusion, the nerve roots most frequently affected are L4, L5, and S1. The pain is severe, sharp and shooting type associated with other symptoms such as numbness, tingling sensation, weakness, and sensitivity to touch. The signs and symptoms of Gridhrasi are similar to sciatica. The present study is comparative clinical study with pre and post test design with sample size 50 subjects with 25 subjects in each group. The intervention of Group A was Katibasti, Dashamoola Niruha Basti in Yoga Basti pattern for first 8 days and Group B, Katibasti, Rasna Erandadi Niruha Basti in Yoga Basti pattern for first 8 days followed by Erandabija Payasa as Shamanaoushadi, both the groups for next 16 consecutive days. The results obtained on assessment parameters like Ruk, Stambha, SLR test, Bragard’s sign, and Functional ability scale value with the significance “P” value of 0.000 in the management of Gridhrasi vis-à-vis Sciatica. Hence, it was inferred that the selected intervention Group B (trial group) Rasna Erandadi Niruha Basti showed better results than Group A (control group) Dashamoola Niruha Basti in the management of Gridhrasi vis-à-vis Sciatica

A Comprehensive Review of Application of RS, GIS and GPS in Agriculture India

Food and fibre, two of humanity's most fundamental requirements, are met by agriculture. In the last century, new farming methods have been introduced, such as the Green Revolution, which has enabled agriculture to keep up with the increasing demand for food and other agricultural goods. But population growth, rising income levels, and increased food demand will probably put more stress on the planet's natural resources. As the detrimental effects of agriculture on the environment become more widely acknowledged, new methods and strategies need to be able to meet future food needs while preserving or lessening the environmental footprint of agriculture. Informed management decisions aiming at increasing crop production could be made with the help of emerging technologies like artificial intelligence (AI), Internet of Things (IoT), big data analysis, and geospatial technology. Many scientists, engineers, agronomists, and researchers use a variety of technologies each year to boost agricultural output while minimising pollution, yet these efforts have a negative environmental impact. Precision agriculture examines how technology might be applied to enhance agricultural practises relative to traditional methods while minimising negative environmental effects. Precision agriculture greatly benefits from the deployment of remote sensing technologies, which also presents new chances to enhance agricultural practises. Geographically, latitude and longitude data can be recorded for field data (slope, aspect, nutrients, and yield) using the global positioning system (GPS). Because of its ability to continuously determine and record the right position, it can build a larger database for the user. Geographic Information Systems (GIS), which can handle and store these data, are needed for the additional analysis. This review will offer you an overview of Remote Sensing technology, GPS, and GIS, and how it might be used for precision agriculture