5,883 research outputs found

    Bio-gas production from alligator weeds

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    Laboratory experiments were conducted to study the effect of temperature, sample preparation, reducing agents, light intensity and pH of the media, on bio-gas and methane production from the microbial anaerobic decomposition of alligator weeds (Alternanthera philoxeroides. Efforts were also made for the isolation and characterization of the methanogenic bacteria

    Study of the Knowledge, Attitude and Experience of Medical Tourism Among Target Groups with Special Emphasis on South India

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    Medical tourism aims at providing cost-effective customized health care in collaboration with the tourism industry in distant locations wherein the hospitality component is handled efficiently so that fixing appointments, making arrangements for accommodation and other logistics become hassle-free for the patient. This allows more concentration on the procedure at hand and the interaction between the medical fraternity and the patient becomes smoother. More and more hospitals in India are gearing up to provide such services to neighbouring countries and even to the developed nations across the world. The purpose of this study was to study the knowledge, attitude and experiences of the population of a suitable cross-section regarding the emerging scenario of medical tourism with special interest vis-à-vis Non Resident Indians (NRIs) specifically to the state of Karnataka and Mangalore in particular. It was found that compared to the locals (kannadigas or non-kannadigas), the Non-resident Indians were more dissatisfied with the health care facilities available in their proximity. Though a majority of them do have medical insurance, it still looks as if the care is more cost-effective when sourced to India. NRIs are more aware of the potential of medical tourism through their communication with the medical fraternity as well as the general public and 11.1% of NRIs have really utilized the services of medical tourism. An e-mail survey which was also conducted among a number of foreigners yielded the interesting fact that they indeed had a greater awareness regarding medical tourism with an emphasis on health tourism. The reason why these foreigners opted for medical tourism was due to the substandard medical care available in their locality, rather than due to the cost of medical care as such

    Formation of supermassive black hole seeds

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    The detection of quasars at z>6z>6 unveils the presence of supermassive black holes (BHs) of a few billion solar masses. The rapid formation process of these extreme objects remains a fascinating and open issue. Such discovery implies that seed black holes must have formed early on, and grown via either rapid accretion or BH/galaxy mergers. In this theoretical review, we discuss in detail various BH seed formation mechanisms and the physical processes at play during their assembly. We discuss the three most popular BH formation scenarios, involving the (i) core-collapse of massive stars, (ii) dynamical evolution of dense nuclear star clusters, (iii) collapse of a protogalactic metal free gas cloud. This article aims at giving a broad introduction and an overview of the most advanced research in the field.Comment: Invited review accepted for publication in PASA, comments are still welcom

    Assessing inflow rates in atomic cooling halos: implications for direct collapse black holes

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    Supermassive black holes are not only common in the present-day galaxies, but billion solar masses black holes also powered z6z\geq 6 quasars. One efficient way to form such black holes is the collapse of a massive primordial gas cloud into a so-called direct collapse black hole. The main requirement for this scenario is the presence of large accretion rates of 0.1 M/yr\rm \geq 0.1~M_{\odot}/yr to form a supermassive star. It is not yet clear how and under what conditions such accretion rates can be obtained. The prime aim of this work is to determine the mass accretion rates under non-isothermal collapse conditions. We perform high resolution cosmological simulations for three primordial halos of a few times 107 M\rm 10^7~M_{\odot} illuminated by an external UV flux, J21=1001000\rm J_{21}=100-1000. We find that a rotationally supported structure of about parsec size is assembled, with an aspect ratio between 0.251\rm 0.25 - 1 depending upon the thermodynamical properties. Rotational support, however, does not halt collapse, and mass inflow rates of 0.1 M/yr\rm \sim 0.1~M_{\odot}/yr can be obtained in the presence of even a moderate UV background flux of strength J21100\rm J_{21} \geq 100. To assess whether such large accretion rates can be maintained over longer time scales, we employed sink particles, confirming the persistence of accretion rates of 0.1 M/yr\rm \sim 0.1~M_{\odot}/yr. We propose that complete isothermal collapse and molecular hydrogen suppression may not always be necessary to form supermassive stars, precursors of black hole seeds. Sufficiently high inflow rates can be obtained for UV flux J21=5001000\rm J_{21}=500-1000, at least for some cases. This value brings the estimate of the abundance of direct collapse black hole seeds closer to that high redshift quasars.Comment: Accepted for publication in MNRAS, comments are still welcom

    El Hermanito: El Niño's overlooked little brother in the Atlantic

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    An oscillation with a period of about 30 months has been identified in the equatorial Atlantic by analyzing sea surface temperature (SST) observations for the period 1949-1991. The 30-month time scale was also found in numerical simulations with an atmospheric general circulation model (AGCM) that was forced by these SSTs and a coupled ocean atmosphere general circulation model (CGCM). Consistent with the theory of tropical air-sea interactions, the Atlantic oscillation (El Hermanito) is an inherently coupled air-sea mode and can be viewed as the Atlantic analogon of the El Nino/Southern Oscillation (ENSO) phenomenon in the equatorial Pacific. El Hermanito is an internal Atlantic mode and appears to be independent of the quasi-biennial (QB) variability observed in the tropical Indian and Pacific Oceans. The discovery of El Hermanito is important to the prediction of Atlantic climate anomalies. (orig.

    Magnetic fields in primordial accretion disks

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    Magnetic fields are considered as a vital ingredient of contemporary star formation, and may have been important during the formation of the first stars in the presence of an efficient amplification mechanism. Initial seed fields are provided via plasma fluctuations, and are subsequently amplified by the small-scale dynamo, leading to a strong tangled magnetic field. Here we explore how the magnetic field provided by the small-scale dynamo is further amplified via the αΩ\alpha-\Omega dynamo in a protostellar disk and assess its implications. For this purpose, we consider two characteristic cases, a typical Pop.~III star with 1010~M_\odot and an accretion rate of 10310^{-3}~M_\odot~yr1^{-1}, and a supermassive star with 10510^5~M_\odot and an accretion rate of 10110^{-1}~M_\odot~yr1^{-1}. For the 1010~M_\odot Pop.~III star, we find that coherent magnetic fields can be produced on scales of at least 100100~AU, which are sufficient to drive a jet with a luminosity of 100100~L_\odot and a mass outflow rate of 103.710^{-3.7}~M_\odot~yr1^{-1}. For the supermassive star, the dynamical timescales in its environment are even shorter, implying smaller orbital timescales and an efficient magnetization out to at least 10001000~AU. The jet luminosity corresponds to 106.0\sim10^{6.0}~L_\odot, and a mass outflow rate of 102.110^{-2.1}~M_\odot~yr1^{-1}. We expect that the feedback from the supermassive star can have a relevant impact on its host galaxy.Comment: Accepted for publication in Astronomy & Astrophysics, comments are still welcom
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