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1	Numerische Approximation quasiperiodischer invarianter Tori unter Anwendung erweiterter Systeme Schilder, Frank. January 2004 (has links) (PDF) Ilmenau, Techn. Universiẗat, Diss., 2004. Invarianter Torus
2	Eine Verallgemeinerung komplexer Tori Hötte, Heike. January 2004 (has links) Münster (Westfalen), Universiẗat, Diss., 2004. Komplexer Torus
3	The neural connectivity of the torus semicircularis in the cave dwelling form of astyanax fasciatus Angel, Timothy B. January 1900 (has links) Thesis (Ph. D.)--Marshall University, 2003. / Title from document title page. Document formatted into pages; contains p. xi, 86 p. including illustrations. Includes abstract. Includes bibliographical references (p. 80-86). Astyanax. Torus semicircularis.
4	TOPOLOGY OF TORUS-LIKE FIBER SPACES Hall, Michael Henry, 1939- January 1966 (has links) No description available. Topology. Torus (Geometry)
5	Non-isotropic harmonic tori in complex projective spaces and configurations of points on Riemann surfaces / Taniguchi, Tetsuya. January 1999 (has links) Univ., Diss.--Sendai, 1999. Riemann surfaces. Torus (Geometry)
6	Non-isotropic harmonic tori in complex projective spaces and configurations of points on Riemann surfaces / Taniguchi, Tetsuya. January 1900 (has links) Thesis (D. Sc.)--Tohoku University. 1999. / "December 1999." Includes bibliographical references (p. 83-84). Torus (Geometry) Riemann surfaces.
7	Vertical compact torus injection into the STOR-M Tokamak Liu, Dazhi 22 November 2006 Central fuelling is a fundamental issue in the neat generation tokamak ITER (International Thermonuclear Experimental Reactor). It is essential for optimization of the bootstrap current which is proportional to the pressure gradient of trapped particles. The conventional tokamak fuelling techniques, such as gas puffing and cryogenic pellet injection, are considered to be inadequate to fulfill this goal due to premature ionization caused by high plasma temperature and density. Fuelling by injecting a compact torus (CT) may be the only viable method suitable for a reactor-grade tokamak. CTs can be injected at different angles with respect to the tokamak toroidal magnetic field, either horizontally or vertically. In vertical injection, deeper CT penetration is expected due to the absence of the gradient of tokamak toroidal magnetic field in that direction. This thesis contributes to experimental investigation of vertical compact torus injection into the STOR-M tokamak. <p>To perform vertical injection, the original injector- USCTI (University of Saskatchewan Compact Torus Injector) was modified by attaching a segment of 90˚ curved drift tube to bend the CT trajectory from horizontal to vertical. Bench tests have shown that a CT injected horizontally can be deflected effectively to the vertical direction. The velocity of 130 kms^{-1}has been achieved while the CT passes through the 90˚ curved drift tube. It was found that the CT magnetic field structure kept intact as a typical structure of compact torus plasma. By further optimization of the USCTI configuration, the velocity has been increased to 270 kms^{-1}. Based on the encouraging bench test results, actual vertical CT injection experiments have been performed in the STOR-M tokamak. Experimental results demonstrated, for the first time, vertical CT injection into a tokamak. Prompt increases both in line averaged electron density and in soft X-ray emission (central cord) are observed following vertical injection. Some H-mode phenomena, characterized by suppression of the m =2 Mirnov oscillation level and drop in Hα radiation level, have also been observed following the vertical injection. Fuelling effects caused by vertical injection and by tangential injection are discussed. The experimental results suggest that vertical CT injection is a feasible tokamak fuelling technique. Fuelling Tokamak Compact torus injection
8	Vertical compact torus injection into the STOR-M Tokamak Liu, Dazhi 22 November 2006 (has links) Central fuelling is a fundamental issue in the neat generation tokamak ITER (International Thermonuclear Experimental Reactor). It is essential for optimization of the bootstrap current which is proportional to the pressure gradient of trapped particles. The conventional tokamak fuelling techniques, such as gas puffing and cryogenic pellet injection, are considered to be inadequate to fulfill this goal due to premature ionization caused by high plasma temperature and density. Fuelling by injecting a compact torus (CT) may be the only viable method suitable for a reactor-grade tokamak. CTs can be injected at different angles with respect to the tokamak toroidal magnetic field, either horizontally or vertically. In vertical injection, deeper CT penetration is expected due to the absence of the gradient of tokamak toroidal magnetic field in that direction. This thesis contributes to experimental investigation of vertical compact torus injection into the STOR-M tokamak. <p>To perform vertical injection, the original injector- USCTI (University of Saskatchewan Compact Torus Injector) was modified by attaching a segment of 90˚ curved drift tube to bend the CT trajectory from horizontal to vertical. Bench tests have shown that a CT injected horizontally can be deflected effectively to the vertical direction. The velocity of 130 kms^{-1}has been achieved while the CT passes through the 90˚ curved drift tube. It was found that the CT magnetic field structure kept intact as a typical structure of compact torus plasma. By further optimization of the USCTI configuration, the velocity has been increased to 270 kms^{-1}. Based on the encouraging bench test results, actual vertical CT injection experiments have been performed in the STOR-M tokamak. Experimental results demonstrated, for the first time, vertical CT injection into a tokamak. Prompt increases both in line averaged electron density and in soft X-ray emission (central cord) are observed following vertical injection. Some H-mode phenomena, characterized by suppression of the m =2 Mirnov oscillation level and drop in Hα radiation level, have also been observed following the vertical injection. Fuelling effects caused by vertical injection and by tangential injection are discussed. The experimental results suggest that vertical CT injection is a feasible tokamak fuelling technique. Fuelling Tokamak Compact torus injection
9	Constructions of open book decompositions Van Horn-Morris, Jeremy, 1978- 28 August 2008 (has links) We introduce the naive notion of a relative open book decomposition for contact 3-manifolds with torus boundary. We then use this to construct nice, minimal genus open book decompositions compatible with all of the universally tight contact structures (as well as a few others) on torus-bundles over S¹, following Honda's classification. In an accurate sense, we find Stein fillings of 'half' of the torus bundles. In addition, these give the first examples of open books compatible with the universally tight contact structures on circle bundles over higher genus surfaces, as well, following a pattern introduced by a branched covering of B⁴. Some interesting examples of open books without positive monodromy are emphasized. Torus (Geometry) Three-manifolds (Topology)
10	ON THE NUMBER OF CRITICAL CONFIGURATIONS OF CHARGES ON AN M-TORUS Bronder, Joseph Bertram, 1934- January 1965 (has links) No description available. Calculus of variations. Topology. Torus (Geometry)

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