Thermal issues at the SSC

A variety of heat transfer problems arise in the design of the Superconducting Super Collider (SSC). One class of problems is to minimize heat leak from the ambient to the SSC rings, since the rings contain superconducting magnets maintained at a temperature of 4 K. Another arises from the need to dump the beam of protrons (traveling around the SSC rings) on to absorbers during an abort of the collider. Yet another category of problems is the cooling of equipment to dissipate the heat generated during operation. An overview of these problems and sample heat transfer results are given in this paper

Experimental Processing of some of the Indian Clays for Chemical Purposes

Clays are of various types viz.,fire clays ball clays, stoneware clays, pipe clays, brick clays, bento-nite, kaolin etc. Excepting the last, the rest are avai-lable in sufficient purity and no dressing is usually necessary. Kaolin is to be washed free of gritty material in suitably designed washers

Ferromagnetically correlated clusters in semi-metallic Ru2NbAl Heusler alloy

In this work, we report the structural, magnetic and electrical and thermal transport properties of the Heusler-type alloy Ru2NbAl. From the detailed analysis of magnetization data, we infer the presence of superparamagnetically interacting clusters with a Pauli paramagnetic background, while short-range ferromagnetic interaction is developed among the clusters below 5 K. The presence of this ferromagnetic interaction is confirmed through heat capacity measurements. The relatively small value of electronic contribution to specific heat, gamma (~2.7 mJ/mol-K2), as well as the linear nature of temperature dependence of Seebeck coefficient indicate a semi-metallic ground state with a pseudo-gap that is also supported by our electronic structure calculations. The activated nature of resistivity is reflected in the observed negative temperature coefficient and has its origin in the charge carrier localization due to antisite defects, inferred from magnetic measurements as well as structural analysis. Although the absolute value of thermoelectric figure of merit is rather low (ZT = 5.2*10-3) in Ru2NbAl, it is the largest among all the reported non-doped full Heusler alloys.Comment: 25 pages, 14 figure

Congestion-aware wireless network-on-chip for high-speed communication

The design of system-on-chip (SoC) requires the complex integration between a multi-number of cores on a single chip. To establish the effective communication between multiple cores there aremore challenging issues on designing the network-on-chip (NoC) architectures. The proposed system deals with the utilization of on-chip antennas for the wireless communication between the long distance cores to minimize the latency and power. In this proposed work, we have designed high-speed wireless NoC (WiNoC) for on-chip communication. This high-speed WiNoC has been achieved by designing a congestion measure unit, which monitors and measures the congestion in the input data and establishes the effective wireless communication between the output channels and routers. The designed architecture is synthesized and implemented by using Altera Quartus II, where the SoC is designed using Qsys builder. The proposed WiNoC shows better performance parameters like throughput, latency and power than the conventional NoC

Hybrid Learning: Balancing Face-to-Face and Online Class Sessions

This paper raises the question: What is the appropriate proportion for face-to-face and online sessions when courses are taught in a hybrid learning format? Proportions of online and face-toface sessions in six institutions that utilize hybrid learning format were reviewed. The review indicates a loosely defined proportion between the two formats, with ratios varying from 75% online and 25% face-to-face to 13% online and 87% face-to-face. The paper proposes three stakeholders: students, professors, and institutions that need to be considered to determine the proportion of online and face-to-face sessions. The paper highlights some attractive features of hybrid teaching format with 50% each for online and face-to-face. The paper concludes by recommending future research to consider the concerns of the primary stakeholders

Potentials and Availability of Mineral Raw Materials for Ferro Alloy Production in India

With an ever increasing tempo for more and more iron and steel production, the demand for ferro alloys has increased considerably, which ultimately depend on the mineral raw materials position. With this in view an appraisal has been made in this paper on the potentials and availability of some of the mineral raw materials for ferro-alloy industry. The different raw materials with their specifications, occurences, distribution, grades, reserves, production, consumption, exports and imports etc. have been discussed

The Investigation of DNA and RNA Structural Differences Using Ultra High Performance Liquid Chromatography

DNA and RNA chromatography is extensively used for nucleic acid analysis. To better understand the chromatographic mechanisms by which DNA and RNA oligonucleotides are separated, ion pair reverse-pair ultra-high performance liquid chromatography (IP RP UHPLC) methods were developed. 11mer and 12mer DNA and RNA oligonucleotides of various compositions were used during this study. The first part of this study analyzed 11mer DNA and RNA oligonucleotides to better understand the chromatographic separations of DNA and RNA. The results gathered through the IP RP UHPLC analysis of these oligonucleotides demonstrated the existence of structural features that affect the chromatographic separations of DNA and RNA. This led to the IP RP UHPLC analysis of DNA and RNA oligonucleotides, of equal length and sequence, which either formed a 4 base-pair or 2 base-pair tetraloop secondary structure. The purpose of this investigation is to improve the isolation and purification of nucleic acid mixtures by understanding how DNA and RNA oligonucleotides interact with the stationary support but to also illuminate the role of structural features in nucleic acid separations. The characterization and the separation of the DNA and RNA oligonucleotides were achieved through a variety of methods including temperature melting experiments. The results gathered demonstrated the effectiveness of IP RP UHPLC to analyze the differences between DNA and RNA oligonucleotide separations. The DNA oligonucleotides eluted earlier than the RNA oligonucleotides which demonstrated that RNA has a different chromatographic mechanism than DNA. Differences between nucleic acid separations of fragments with the 2 base-pair tetraloop and 4 base-pair tetraloop structural modifications were also observed. The oligonucleotides with the 4 base-pair tetraloop eluted later than the oligonucleotides with the 2 base-pair tetraloop demonstrating the influence of structural modifications on the separation mechanisms of nucleic acids. The temperature melting experiments performed also confirmed that structural modifications influence the interaction between nucleic acids and stationary support. These results demonstrate the effectiveness of IP RP UHPLC to observe structural differences between DNA and RNA and as an alternative method to traditional methods, such as gel electrophoresis, to analyze oligonucleotides