Extending the LHC Reach for New Physics with Sub-Millimeter Displaced Vertices

Particles with a sub-millimeter decay length appear in many models of physics beyond the Standard Model. However, their longevity has been often ignored in their LHC searches and they have been regarded as promptly-decaying particles. In this letter, we show that, by requiring displaced vertices on top of the event selection criteria used in the ordinary search strategies for promptly-decaying particles, we can considerably extend the LHC reach for particles with a decay length of $\gtrsim 100~\mu{\rm m}$. We discuss a way of reconstructing sub-millimeter displaced vertices by exploiting the same technique used for the primary vertex reconstruction on the assumption that the metastable particles are always pair-produced and their decay products contain high-$p_{\rm T}$ jets. We show that, by applying a cut based on displaced vertices on top of standard kinematical cuts for the search of new particles, the LHC reach can be significantly extended if the decay length is $\gtrsim 100~\mu{\rm m}$. In addition, we may measure the lifetime of the target particle through the reconstruction of displaced vertices, which plays an important role in understanding the new physics behind the metastable particles.Comment: 18 pages, 6 figure

Mechanism and stereochemistry on the Pummerer reaction

Thesis--University of Tsukuba, D.Sc. (A), no. 155, 1982. 7. 3

Scalar Transfer across a Turbulent/non-turbulent Interface in a Planar Jet

This fluid dynamics video is an entry for the Gallery of Fluid Motion of the 66th Annual Meeting of the APS-DFD. In this video, the scalar transfer across the turbulent/non-turbulent (T/NT) interface in a planar jet is investigated by using a direct numerical simulation. Visualization of the scalar flux across the T/NT interface shows that the diffusive species premixed in the ambient flow is transferred into the turbulent region mainly across the leading edge (Here, the leading edge is the T/NT interface across which the turbulent fluid turns into the non-turbulent fluid in the streamwise direction).Comment: The fluid dynamics video for an entry for the Gallery of Fluid Motion of the 66th Annual Meeting of the APS-DFD is include

CO oxidation on Pd(111), Pt(111), and Rh(111) surfaces studied by infrared chemiluminescence spectroscopy

The infrared (IR) chemiluminescence studies of CO2 formed during steady-state CO oxidationover Pd(111), Pt(111), and Rh(111) surfaces were carried out. Analysis of their emission spectraindicates that the order of the average vibrational temperature (TVAV) values of CO2 formed duringCO oxidation was as follows: Pd(111) > Pt(111) > Rh(111), and the order is coincident with thepotential energy in the transition state expected by the theoretical calculations. Furthermore, it issuggested that the bending vibrational temperature (TVB) can also be influenced by the angle ofO−C−O (∠OCO) of the activated complex in the transition state, which has also been proposed bythe theoretical calculations

Obelin mutants as reporters in bioluminescent dual-analyte binding assay

Author Posting. © Royal Society of Chemistry, 2013. This article is posted here by permission of RSC Publishing for personal use, not for redistribution. The definitive version was published in Analytical Methods 5 (2013): 636-640, doi:10.1039/C2AY25976A.Two obelin mutants distinctly different in the color of bioluminescence were successfully applied to simultaneous detection of two analytes in a single well. The flash-type signals were triggered by single injection of Ca2+ and were discriminated by the spectral and time resolutions. The technique was developed in a high-throughput format, and applied to simultaneous immunoassay of two gonadotropic hormones – luteinizing (lutropin or hLH) and follicle stimulating (hFSH) – in clinical sera, and to simultaneous detection of two gene allelic variants at single nucleotide polymorphism genotyping of the human F5 gene encoding factor V Leiden polymorphism 1691 G/A (R506Q). A considerable number of samples were investigated and the results obtained were in good correlation with those obtained by using traditional techniques.This work was supported by the Program of the Government of Russian Federation “Measures to attract leading scientists to Russian educational institutions” (grant no. 11. G34.31.058).2013-11-2

Research on ignition and flame spread of solid materials in Japan

Fire safety is one of the main concerns for crewed missions such as the space station. Materials used in spacecraft may burn even if metalic. There are severe restrictions on the materials used in spacecraft from the view of fire safety. However, such restrictions or safety standards are usually determined based on experimental results under normal gravity, despite large differences between the phenomena under normal and microgravity. To evaluate the appropriateness of materials for use in space, large amount of microgravity fire-safety combustion data is urgently needed. Solid material combustion under microgravity, such as ignition and flame spread, is a relatively new research field in Japan. As the other reports in this workshop describe, most of microgravity combustion research in Japan is droplet combustion as well as some research on gas phase combustion. Since JAMIC, the Japan Microgravity Center, (which offers 10 seconds microgravity time) opened in 1992, microgravity combustion research is robust, and many drop tests relating to solid combustion (paper combustion, cotton string combustion, metal combustion with Aluminium or Magnesium) have been performed. These tests proved that the 10 seconds of microgravity time at JAMIC is useful for solid combustion research. Some experiments were performed before JAMIC opened. For example, latticed paper was burned under microgravity by using a 50 m drop tower to simulate porous material combustion under microgravity. A 50 m tower provides only 2 seconds microgravity time however, and it was not long enough to investigate the solid combustion phenomena

On Cavity Flow Simulating Vortex Induced in the Low Q Low V Layer

application/pdfBulletin of University of Osaka Prefecture. Series A, Engineering and natural sciences. 1986, 35(1), p.93-100departmental bulletin pape

Singularity Seminar 2008

2009Organized by Yukari Ito and Osamu IyamaOctober 2008--February 2009departmental bulletin pape