91 research outputs found

    The Baltic Nations and Europe: Estonia, Latvia and Lithuania in the Twentieth Century

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    Implications of Soviet and Russian Nuclear Waste Dumping in the Arctic Marine Environment

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    This study examines fragmentary information on ocean dumping of radioactive wastes conducted by the Soviet Union and the Russian Federation from 1959 to the present, then assays the impact of this activity in terms of the legal historical, oceanographic and political contexts. Lacking accurate and thorough data on many aspects of the activity, it has been necessary to infer and extrapolate from what is know about the impact of radioactive materials on analogous ocean sites and regimes where radionuclides have been introduced and monitored by other states. Preliminary assessments are provided for the impact on human uses of resources in the affected marine areas and coastal zones and the potential or implementing alternative remediation strategies. The study concludes with reflections on emerging and potential implications for regional and international maritime policy regimes

    The Independent Baltic States: Maritime Security Implications

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    The achievement of independence by the Baltic states of Estonia, Latvia, and Lithuania stands as one of a series of profound changes that will affect security regimes in the Baltic Sea and littoral areas

    The Role of Intelligence in Soviet Military Strategy in World War II

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    Deterrence and the Revolution in Soviet Military Doctrine

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    Neutron-scattering measurements of the spin excitations in LaFeAsO and Ba(Fe0.953_{0.953}Co0.047_{0.047})2_{2}As2_{2}: Evidence for a sharp enhancement of spin fluctuations by nematic order

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    Inelastic neutron scattering was employed to investigate the impact of electronic nematic order on the magnetic spectra of LaFeAsO and Ba(Fe0.953_{0.953}Co0.047_{0.047})2_{2}As2_{2}. These materials are ideal to study the paramagnetic-nematic state, since the nematic order, signaled by the tetragonal-to-orthorhombic transition at TST_{{\rm S}}, sets in well above the stripe antiferromagnetic ordering at TNT_{{\rm N}}. We find that the temperature-dependent dynamic susceptibility displays an anomaly at TST_{{\rm S}} followed by a sharp enhancement in the spin-spin correlation length, revealing a strong feedback effect of nematic order on the low-energy magnetic spectrum. Our findings can be consistently described by a model that attributes the structural/nematic transition to magnetic fluctuations, and unveils the key role played by nematic order in promoting the long-range stripe antiferromagnetic order in iron pnictides.Comment: 6 pages, 5 figures, 66 references, plus one Supplemental Material. Physical Review Letters, Accepted and in productio

    Spontaneous S–Si bonding of alkanethiols to Si(111)–H: towards Si–molecule–Si circuits

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    We report the synthesis of covalently linked self-assembled monolayers (SAMs) on silicon surfaces, using mild conditions, in a way that is compatible with silicon-electronics fabrication technologies. In molecular electronics, SAMs of functional molecules tethered to gold via sulfur linkages dominate, but these devices are not robust in design and not amenable to scalable manufacture. Whereas covalent bonding to silicon has long been recognized as an attractive alternative, only formation processes involving high temperature and/or pressure, strong chemicals, or irradiation are known. To make molecular devices on silicon under mild conditions with properties reminiscent of Au–S ones, we exploit the susceptibility of thiols to oxidation by dissolved O2, initiating free-radical polymerization mechanisms without causing oxidative damage to the surface. Without thiols present, dissolved O2 would normally oxidize the silicon and hence reaction conditions such as these have been strenuously avoided in the past. The surface coverage on Si(111)–H is measured to be very high, 75% of a full monolayer, with density-functional theory calculations used to profile spontaneous reaction mechanisms. The impact of the Si–S chemistry in single-molecule electronics is demonstrated using STM-junction approaches by forming Si–hexanedithiol–Si junctions. Si–S contacts result in single-molecule wires that are mechanically stable, with an average lifetime at room temperature of 2.7 s, which is five folds higher than that reported for conventional molecular junctions formed between gold electrodes. The enhanced “ON” lifetime of this single-molecule circuit enables previously inaccessible electrical measurements on single molecules

    Vaccine-Elicited Mucosal and Systemic Antibody Responses Are Associated with Reduced Simian Immunodeficiency Viremia in Infant Rhesus Macaques

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    ABSTRACT Despite significant progress in reducing peripartum mother-to-child transmission (MTCT) of human immunodeficiency virus (HIV) with antiretroviral therapy (ART), continued access to ART throughout the breastfeeding period is still a limiting factor, and breast milk exposure to HIV accounts for up to 44% of MTCT. As abstinence from breastfeeding is not recommended, alternative means are needed to prevent MTCT of HIV. We have previously shown that oral vaccination at birth with live attenuated Mycobacterium tuberculosis strains expressing simian immunodeficiency virus (SIV) genes safely induces persistent SIV-specific cellular and humoral immune responses both systemically and at the oral and intestinal mucosa. Here, we tested the ability of oral M. tuberculosis vaccine strains expressing SIV Env and Gag proteins, followed by systemic heterologous (MVA-SIV Env/Gag/Pol) boosting, to protect neonatal macaques against oral SIV challenge. While vaccination did not protect infant macaques against oral SIV acquisition, a subset of immunized animals had significantly lower peak viremia which inversely correlated with prechallenge SIV Env-specific salivary and intestinal IgA responses and higher-avidity SIV Env-specific IgG in plasma. These controller animals also maintained CD4 + T cell populations better and showed reduced tissue pathology compared to noncontroller animals. We show that infants vaccinated at birth can develop vaccine-induced SIV-specific IgA and IgG antibodies and cellular immune responses within weeks of life. Our data further suggest that affinity maturation of vaccine-induced plasma antibodies and induction of mucosal IgA responses at potential SIV entry sites are associated with better control of viral replication, thereby likely reducing SIV morbidity. IMPORTANCE Despite significant progress in reducing peripartum MTCT of HIV with ART, continued access to ART throughout the breastfeeding period is still a limiting factor. Breast milk exposure to HIV accounts for up to 44% of MTCT. Alternative measures, in addition to ART, are needed to achieve the goal of an AIDS-free generation. Pediatric HIV vaccines constitute a core component of such efforts. The results of our pediatric vaccine study highlight the potential importance of vaccine-elicited mucosal Env-specific IgA responses in combination with high-avidity systemic Env-specific IgG in protection against oral SIV transmission and control of viral replication in infant macaques. The induction of potent mucosal IgA antibodies by our vaccine is remarkable considering the age-dependent development of mucosal IgA responses postbirth. A deeper understanding of postnatal immune development may inform the design of improved vaccine strategies to enhance systemic and mucosal SIV/HIV antibody responses
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