Studies of the nucler equation of state using numerical calculations of nuclear drop collisions

A numerical calculation for the full thermal dynamics of colliding nuclei was developed. Preliminary results are reported for the thermal fluid dynamics in such processes as Coulomb scattering, fusion, fusion-fission, bulk oscillations, compression with heating, and collisions of heated nuclei

Runx Expression in Normal and Osteoarthritic Cartilage: Possible Functions of Runx Proteins in Chondrocytes: A Dissertation

The Runx family of transcription factors supports cell fate determination, cell cycle regulation, global protein synthesis control, and genetic as well as epigenetic regulation of target genes. Runx1, which is essential for hematopoiesis; Runx2, which is required for osteoblast differentiation; and Runx3, which is involved in neurologic and gut development; are expressed in the growth plate during chondrocyte maturation, and in the chondrocytes of permanent cartilage structures. While Runx2 is known to control genes that contribute to chondrocyte hypertrophy, the functions of Runx1 and Runx3 during chondrogenesis and in cartilage tissue have been less well studied. The goals of this project were to characterize expression of Runx proteins in articular cartilage and differentiating chondrocytes and to determine the contribution of Runx1 to osteoarthritis (OA). Here, the expression pattern of Runx1 and Runx2 was characterized in normal bovine articular cartilage. Runx2 is expressed at higher levels in deep zone chondrocytes, while Runx1 is primarily expressed in superficial zone chondrocytes, which is the single cell layer that lines the surface of articular cartilage. Based on this finding, the hypothesis was tested that Runx1 is involved in osteoarthritis, which is a disease characterized by degradation of articular cartilage and changes in chondrocytes. These studies showed that Runx1 is upregulated in articular cartilage explants in response to mechanical compression. Runx1 was also expressed in chondrocytes found at the periphery of OA lesions in the articular cartilage of mice that underwent an OA-inducing surgery. Runx1 was also upregulated in cartilage explants of human osteoarthritic knees, and IHC data showed that Runx1 is mainly expressed in chondrocyte “clones” characteristic of OA. To ascertain the potential function of the upregulation of Runx1 in these cartilage stress conditions and disease states, the hypothesis was tested that Runx1 is upregulated in very specific chondrocyte populations in response to the cartilage damage in osteoarthritis. These studies addressed the properties of these cells that related to functions in cell growth and differentiation. In both the surface layer of normal articular cartilage, and in OA cartilage, Runx1 expression by IF co-localized with markers of mesenchymal progenitor cells, as well as markers of proliferation Ki-67 and PCNA. This finding indicated that Runx1 is found in a population of cells that represent a proliferative population of mesenchymal progenitor cells in osteoarthritis. To further address Runx1 function and identify downstream targets of Runx proteins, a promoter analysis of genes that are known to be either downregulated or upregulated during chondrocyte maturation was done. These studies found that many of these genes have 1 or more Runx binding sites within 2kb of their transcription start site, indicating that they are potential downstream Runx target genes. Lastly, some preliminary experiments were done to characterize novel roles of Runx proteins in the chondrocyte. Runx proteins have been shown to epigenetically regulate their target genes by remaining bound to them throughout mitosis, “poising” them for transcription upon exit from mitosis. The hypothesis that Runx proteins also function by remaining bound to their target genes throughout mitosis in chondrocytes was tested. It was demonstrated by immunofluorescense imaging of Runx proteins on metaphase chromosomes of ATDC5 cells, that Runx2 remains bound to chromosomes during mitosis. Cell proliferation and hypertrophy are both linked to increases in protein synthesis. Runx factors, which regulate rates of global protein synthesis, are expressed in both proliferating and hypertrophic chondrocytes. Thus, it was hypothesized that Runx proteins regulate rates of global protein synthesis during chondrocyte maturation. These studies showed that the overexpression of Runx proteins in a chondrocyte cell line (ATDC5) did not affect protein synthesis rates or levels of protein synthesis machinery. Additionally, Runx proteins did not affect proliferation rates in this chondrocyte cell line

Dual-species quantum degeneracy of potassium-40 and rubidium-87 on an atom chip

In this article we review our recent experiments with a 40K-87Rb mixture. We demonstrate rapid sympathetic cooling of a 40K-87Rb mixture to dual quantum degeneracy on an atom chip. We also provide details on efficient BEC production, species-selective magnetic confinement, and progress toward integration of an optical lattice with an atom chip. The efficiency of our evaporation allows us to reach dual degeneracy after just 6 s of evaporation - more rapidly than in conventional magnetic traps. When optimizing evaporative cooling for efficient evaporation of 87Rb alone we achieve BEC after just 4 s of evaporation and an 8 s total cycle time.Comment: 8 pages, 4 figures. To be published in the Proceedings of the 20th International Conference on Atomic Physics, 2006 (Innsbruck, Austria

Oil of Chenopodium and Chenopodium Plants for the Eradication of Round Worms in Swine

1. The results of this series of tests indicate that if pigs are badly infested with worms, worming them once by an efficient method as soon as possible after weaning will reduce feed costs during the subsequent feeding period. 2. Worming the pigs a second time resulted in increased rather than decreased feed costs as compared with pigs wormed only once. 3. The results of two tests indicate that chenopodium plants may be used as a forage crop to eliminate worms and reduce grain and supplements required to produce 100 pounds of gain. 4. Cultural methods for development of chenopodium are now in progress, and as soon as completed specific recommendations as to its practical value as a forage crop for worming pigs will be made

Effect of magnetic field on the phase transition in a dusty plasma

The formation of self-consistent crystalline structure is a well-known phenomenon in complex plasmas. In most experiments the pressure and rf power are the main controlling parameters in determining the phase of the system. We have studied the effect of externally applied magnetic field on the configuration of plasma crystals, suspended in the sheath of a radio-frequency discharge using the Magnetized Dusty Plasma Experiment (MDPX) device. Experiments are performed at a fixed pressure and rf power where a crystalline structure is formed within a confining ring. The magnetic field is then increased from 0 to 1.28 T. We report on the breakdown of the crystalline structure with increasing magnetic field. The magnetic field affects the dynamics of the plasma particles and first leads to a rotation of the crystal. At higher magnetic field, there is a radial variation (shear) in the angular velocity of the moving particles which we believe leads to the melting of the crystal. This melting is confirmed by evaluating the variation of the pair correlation function as a function of magnetic field.Comment: 9 pages, 5 figure

Fluctuation diagnostics of the electron self-energy: Origin of the pseudogap physics

We demonstrate how to identify which physical processes dominate the low-energy spectral functions of correlated electron systems. We obtain an unambiguous classification through an analysis of the equation of motion for the electron self-energy in its charge, spin and particle-particle representations. Our procedure is then employed to clarify the controversial physics responsible for the appearance of the pseudogap in correlated systems. We illustrate our method by examining the attractive and repulsive Hubbard model in two-dimensions. In the latter, spin fluctuations are identified as the origin of the pseudogap, and we also explain why $d-$wave pairing fluctuations play a marginal role in suppressing the low-energy spectral weight, independent of their actual strength.Comment: 6 pages, 2 figures + 4 pages supplementar