20 research outputs found

    Dirac Neutrinos, Dark Energy and Baryon Asymmetry

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    We explore a new origin of neutrino dark energy and baryon asymmetry in the universe. The neutrinos acquire small masses through the Dirac seesaw mechanism. The pseudo-Nambu-Goldstone boson associated with neutrino mass-generation provides a candidate for dark energy. The puzzle of cosmological baryon asymmetry is resolved via neutrinogenesis.Comment: 6 pages, 1 figure. Accepted by JCAP (only minor rewordings, refs added

    Therapeutic Potential of HDL in Cardioprotection and Tissue Repair

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    Epidemiological studies support a strong association between high-density lipoprotein (HDL) cholesterol levels and heart failure incidence. Experimental evidence from different angles supports the view that low HDL is unlikely an innocent bystander in the development of heart failure. HDL exerts direct cardioprotective effects, which are mediated via its interactions with the myocardium and more specifically with cardiomyocytes. HDL may improve cardiac function in several ways. Firstly, HDL may protect the heart against ischaemia/reperfusion injury resulting in a reduction of infarct size and thus in myocardial salvage. Secondly, HDL can improve cardiac function in the absence of ischaemic heart disease as illustrated by beneficial effects conferred by these lipoproteins in diabetic cardiomyopathy. Thirdly, HDL may improve cardiac function by reducing infarct expansion and by attenuating ventricular remodelling post-myocardial infarction. These different mechanisms are substantiated by in vitro, ex vivo, and in vivo intervention studies that applied treatment with native HDL, treatment with reconstituted HDL, or human apo A-I gene transfer. The effect of human apo A-I gene transfer on infarct expansion and ventricular remodelling post-myocardial infarction illustrates the beneficial effects of HDL on tissue repair. The role of HDL in tissue repair is further underpinned by the potent effects of these lipoproteins on endothelial progenitor cell number, function, and incorporation, which may in particular be relevant under conditions of high endothelial cell turnover. Furthermore, topical HDL therapy enhances cutaneous wound healing in different models. In conclusion, the development of HDL-targeted interventions in these strategically chosen therapeutic areas is supported by a strong clinical rationale and significant preclinical data.status: publishe

    Neutrino Dark Energy -- Revisiting the Stability Issue.

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    A coupling between a light scalar field and neutrinos has been widely discussed as a mechanism for linking (time varying) neutrino masses and the present energy density and equation of state of dark energy. However, it has been pointed out that the viability of this scenario in the non-relativistic neutrino regime is threatened by the strong growth of hydrodynamic perturbations associated with a negative adiabatic sound speed squared. In this paper we revisit the stability issue in the framework of linear perturbation theory in a model independent way. The criterion for the stability of a model is translated into a constraint on the scalar-neutrino coupling, which depends on the ratio of the energy densities in neutrinos and cold dark matter. We illustrate our results by providing meaningful examples both for stable and unstable models.Comment: 24 pages, 8 figures, stable scenario with negative sound speed squared included, figures added, references added, conclusions unchanged. Matches version to be published in JCA

    Bio-Inspired Titanium Dioxide Materials with Special Wettability and Their Applications

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    Titanium dioxide (TiO2) is one of the most widely used nanomaterials in our daily life. In 1972, Fujishima and Honda reported the photo electrolysis of water into H2 and O2 utilizing an electrochemical cell in which the TiO2 single-crystal electrode is connected with a Pt electrode. This is analogus with the natural photosynthesis that produces oxygen through oxidizing water and reducing carbon dioxide using sunlight, where solar energy is converted into chemical energy. Since that time, photocatalysis has received considerable attention owing to its important applications in the conversion of light energy into useful chemical energy. In 1997, Fujishima et al. first reported the photogeneration of a superamphiphilic (both superhydrophilic and superoleophilic, where the contact angle of water and oil on a surface is almost 0°, respectively) TiO2 surface under UV light irradiation, showing self-cleaning and antifogging characteristics. This breakthrough work expanded the research field of TiO2 materials and marked the beginning of a new era in TiO2-based self-cleaning materials. Since then, an important effort has been focused on the understanding of the fundamental mechanism of this novel function and on the development of selfcleaning materials for a wide range of applications in energy, environmental, and industrial fields, resulting in the generation of new markets. Although photocatalysis and photoinduced superhydrophilicity can take place simultaneously on the same TiO2 surface, they are intrinsically different processes. In recent years, environmental pollution and damage on a global scale have emerged as a serious issue. The viable environmental cleanup has attracted a great deal of attention to achieve important breakthroughs in the design of advanced materials and in the development of new technology. Now, a variety of TiO2-based materials have been commercialized arising from their unique photoinduced properties. Furthermore, these commercial products demonstrate their importance in the environmental cleanup

    Probing Neutrino Dark Energy with Extremely High-Energy Cosmic Neutrinos.

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    Recently, a new non-Standard Model neutrino interaction mediated by a light scalar field was proposed, which renders the big-bang relic neutrinos of the cosmic neutrino background a natural dark energy candidate, the so-called Neutrino Dark Energy. As a further consequence of this interaction, the neutrino masses become functions of the neutrino energy densities and are thus promoted to dynamical, time/redshift dependent quantities. Such a possible neutrino mass variation introduces a redshift dependence into the resonance energies associated with the annihilation of extremely high-energy cosmic neutrinos on relic anti-neutrinos and vice versa into Z-bosons. In general, this annihilation process is expected to lead to sizeable absorption dips in the spectra to be observed on earth by neutrino observatories operating in the relevant energy region above 10^13 GeV. In our analysis, we contrast the characteristic absorption features produced by constant and varying neutrino masses, including all thermal background effects caused by the relic neutrino motion. We firstly consider neutrinos from astrophysical sources and secondly neutrinos originating from the decomposition of topological defects using the appropriate fragmentation functions. On the one hand, independent of the nature of neutrino masses, our results illustrate the discovery potential for the cosmic neutrino background by means of relic neutrino absorption spectroscopy. On the other hand, they allow to estimate the prospects for testing its possible interpretation as source of Neutrino Dark Energy within the next decade by the neutrino observatories ANITA and LOFAR.Comment: 38 pages, 19 figure

    Correction to: Prevalence, associated factors and outcomes of pressure injuries in adult intensive care unit patients: the DecubICUs study (Intensive Care Medicine, (2021), 47, 2, (160-169), 10.1007/s00134-020-06234-9)

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    1832The original version of this article unfortunately contained a mistake. The members of the ESICM Trials Group Collaborators were not shown in the article but only in the ESM. The full list of collaborators is shown below. 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Starchenko I.; Twagirumugabe T.; Nshimyumuremyi I.; Muhizi J.; Buregeya E.; Nzarora J.; Assiri A.; Ebaid M.S.; Almekhlafi G.; Mandourah Y.; Velickovic J.; Velickovic D.; Jovanovic B.; Hadzibegovic A.; Stefanovic B.; Misic V.; Bumbasirevic V.; Rajkovic M.; Stojanovic M.; Gavrilovic S.; Stanojevic M.; Martonova A.; Yaghi A.; Turcan A.; Firment P.; Slobodianiuk G.; Rabarova D.; Lancaricova D.; Vlaovic J.; Groznik M.; Lukic M.; Perme J.; Sostaric M.; Umek N.; Mirkovic T.; Dolenc S.; Knafelj R.; Fister M.; Zorko N.; Markota A.; Yeni N.P.; Jali P.; Schmollgruber S.; Syed M.R.; Parag N.; Wise R.; Galiana M.; Navarro J.A.; De Pablo A.M.; Albert P.; Martinez P.; Mendiara Y.; Garcia B.; Llinas A.A.; Riveiro M.; Gallart E.; Riera A.; Sanz M.; Salo S.; Lajara M.A.G.; Nieto M.V.; Garcia R.; Pena J.M.G.; Gorgolas M.C.; Isasi M.A.; Sierra R.; Gordo F.; Conejo I.; Salva-Costa V.; Garzon-Tovar C.; Lospitao S.; Gonzalez R.; Gutierrez P.; Girona M.; Adamuz J.; Olivares P.G.; de Ceballos J.P.G.; Tirado C.; 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Dikmen Y.; Erdogan E.; Akker M.; Peker N.; Ozgultekin A.; Serin S.O.; Turan C.; Karaoren G.; Goksu S.; Karakurt S.; Arikan H.; Gul F.; Cinel I.; Kara I.; Undar H.N.; Bayraktar Y.S.; Celik J.B.; Tokur M.E.; Aydin D.T.; Yildiz I.; Ozcan B.; Erdivanli B.; Erdivanli B.; Ozcan B.; Eroglu A.; Akdag D.; Unlu N.; Fielding M.; Dungca A.; Ali A.; Thankamma B.; Reyes P.E.; John S.; Rajendran A.; Ahmad F.K.E.; Smiley K.A.; Hojden S.; Miller M.T.; Das Sasidharan Nair V.; Antonio M.G.S.; Qawasmeh K.A.; Shawish S.A.; Twiggs H.; Rosado I.; Babych V.; Morren F.; Young C.; Vaughan-Jones N.; Harris S.; Burns K.; Georgiev C.; Shayamano R.; Kerslake I.; Creber P.; Vochin A.; O'Brien C.; Caddell P.; Hagan S.; Hughes M.; Torlinski T.; Sherwin J.; Kannan S.; Markham A.; Lebon R.; Cupitt J.; Cranshaw J.; White N.; Marriott V.; Milner W.; Groba C.B.; Azoia J.; Polgarova P.; George S.; Kapoor R.; Lynch C.; Fox N.; Cranmer K.; Fox N.; Llewellym T.; Matthews K.; Maltby L.; Ibao J.; Boulton K.; Jarman R.; Baxter K.; 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