1,732 research outputs found

    A critical point in the distribution of lepton energies from the decay of a spin-1 resonance

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    Abstract We consider a spin-1 resonance produced with an arbitrary spectrum of velocities and decaying into a pair of massless leptons, and we study the probability density function of the energy of the leptons in the laboratory frame. A special case is represented by the production of W bosons in proton-proton collisions, for which the energy of the charged lepton from the decaying W can be measured with sufficient accuracy for a high-precision measurement of M W . We find that half of the resonance mass is a special value of the lepton energy, since the probability density function at this point is in general not analytic for a narrow-width resonance. In particular, the higher-order derivatives of the density function are likely to develop singularities, such as cusps or poles. A finite width of the resonance restores the regularity, for example by smearing cusps and poles into local stationary points. The quest for such points offers a handle to estimate the resonance mass with much reduced dependence on the underlying production and decay dynamics of the resonance

    Tracking at LHC

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    Precise tracking is an indispensable tool for the study of many phenomena at new energy frontier accessible with the CERN Large Hadron Collider. The tracking detectors of ATLAS and CMS have been designed to cope with the harsh experimental conditions of the LHC interaction region. In this paper we discuss and compare the tracking performance of these two detectors

    High resolution X-ray photoelectron spectroscopy of L-Cysteine self-assemble films,

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    The increasing demand for heterogeneous materials prompts the interest for the physics and chemistry of organic-inorganic interfaces. Within this field of interest we have investigated the electronic states of L-cysteine (Cys) adsorbed on Au(111) from aqueous solution with synchrotron-based, high resolution X-ray photoemission spectroscopy. The analysis of the S 2p core level region in pristine samples prepared with purified Cys indicates that Cys adsorbs on gold as a thiolate. The absence of a signal related to physisorbed sulfur indicates that Cys forms a monomolecular layer. The high resolution allowed us to resolve two components in the C 1s spectral region related to carboxyl. The comparative analysis of C 1s, N 1s and O 1s core level regions indicates the presence of the neutral and ionic form for both the carboxyl and the amine groups. From the quantitative analysis of the C 1s and N 1s data we can infer that the zwitterionic form is the prevalent one

    Peripheral blood and bone marrow changes after treatment with ATRA and G-CSF in AML, APL and blast crisis following Vaquez's disease

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    The aim of the present study was to better understand the possibility of utilizing growth factors of the myelomonocytic line in acute leukemias. The study is an examination of morphological changes and marker behavior in peripheral and bone marrow cells in AML and APL during treatment both with all-transretinoic acid (ATRA) alone and in association with chemotherapy and G-CSF. The same treatment was carried out in a patient who had been diagnosed with Vaquez's disease 15 years earlier and currently presented a bone marrow and peripheral picture of AML (80% myeloblasts) with thrombocytopenia. We observed that treatment with ATRA, alone or in association with chemotherapy, was followed by a remission of AML and especially of APL, with amelioration of the general condition of the patients. The addition of G-CSF to ATRA at the end of chemotherapy, during consequent pancytopenia, produced a rapid increase in mature peripheral granulocytes and an apparent medullary complete remission, which was more prolonged in APL than in AML; there was no increase in peripheral blasts. Discontinuation of G-CSF was followed by a relapse in the patient with AML. A patient with Vaquez's disease, in remission for 15 years and presenting a progressive increase in bone marrow and peripheral myeloblasts, did not have a positive response to the administration of ATRA; however, the association of G-CSF to ATRA was followed by a complete remission. The morphological changes observed in bone marrow and peripheral granulocytes (with changes in the main cellular markers: CD11b, CD13, CD14, CD15, CD34) seemed to express progressive modification of the single elements towards differentiation, with progressive bone marrow reduction and peripheral disappearance of blasts. The data agree with the changes observed in in vitro blasts cultured in the presence of ATRA and G-CSF

    High Resolution XPS of the S2p core level region of the L-Cysteine/gold interface

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    L-cysteine self-assembled monolayers (SAMs) have been deposited on gold from the liquid and vapour phase. Synchrotron based high resolution x-ray photoemission spectroscopy has been used to characterize the sulfur chemical states at the SAM/gold interface. Results obtained from pristine and x-ray irradiated samples, prepared with both as-received and purified L-cysteine, are reported. Pristine samples prepared with purified cysteine are characterized by an intense, largely dominant S 2p state at a binding energy around 162 eV (2p(3/2) level) assigned to thiolates. A second doublet around 161 eV develops during irradiation. By comparison with the literature, this doublet is assigned to atomic sulfur present either as impurity or generated by S-C bond scission. Comparative measurements performed, under similar experimental conditions, on pristine 3-mercaptopropionic acid [HS(CH2)(2)COOH] layers deposited from the liquid phase are also presented and discussed
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