The influence of transition metal solutes on dislocation core structure and values of Peierls stress and barrier in tungsten

Several transition metals were examined to evaluate their potential for improving the ductility of tungsten. The dislocation core structure and Peierls stress and barrier of $1/2$ screw dislocations in binary tungsten-transition metal alloys (W$_{1-x}$TM$_{x}$) were investigated using first principles electronic structure calculations. The periodic quadrupole approach was applied to model the structure of $1/2$ dislocation. Alloying with transition metals was modeled using the virtual crystal approximation and the applicability of this approach was assessed by calculating the equilibrium lattice parameter and elastic constants of the tungsten alloys. Reasonable agreement was obtained with experimental data and with results obtained from the conventional supercell approach. Increasing the concentration of a transition metal from the VIIIA group, i.e. the elements in columns headed by Fe, Co and Ni, leads to reduction of the $C^\prime$ elastic constant and increase of elastic anisotropy A=$C_{44}/C^\prime$. Alloying W with a group VIIIA transition metal changes the structure of the dislocation core from symmetric to asymmetric, similar to results obtained for W$_{1-x}$Re$_{x}$ alloys in the earlier work of Romaner {\it et al} (Phys. Rev. Lett. 104, 195503 (2010))\comments{\cite{WRECORE}}. In addition to a change in the core symmetry, the values of the Peierls stress and barrier are reduced. The latter effect could lead to increased ductility in a tungsten-based alloy\comments{\cite{WRECORE}}. Our results demonstrate that alloying with any of the transition metals from the VIIIA group should have similar effect as alloying with Re.Comment: 12 pages, 8 figures, 3 table

Detection of Time-Reversal Symmetry Breaking in the Noncentrosymmetric Superconductor Re6_6Zr Using Muon-Spin Spectroscopy

We have investigated the superconducting state of the non-centrosymmetric compound Re$_6$Zr using magnetization, heat capacity, and muon-spin relaxation/rotation ($\mu$SR) measurements. Re$_6$Zr has a superconducting transition temperature, T$_c$ = 6.75±0.05 K. Transverse-field $\mu$SR experiments, used to probe the superfluid density, suggest an $s$-wave character for the superconducting gap. However, zero and longitudinal-field $\mu$SR data reveal the presence of spontaneous static magnetic fields below $T$$_c$ indicating that time-reversal symmetry is broken in the superconducting state and an unconventional pairing mechanism. An analysis of the pairing symmetries identifies the ground states compatible with time-reversal symmetry breaking

Current requirements to multispectral automatic machines of target following for high-precision weapon systems and their possible realizations

This paper deals with current requirements to “intelligent” automatic machines of target following for high-precision weapon (HPW) systems of different classes, based on optimal (rational) interconnecting of location channels of different type. As an example of mentioned requirements a structure of multispectral automatic machine of targets following with integrated information unit (which consists of television, thermal imaging and radiolocation channels) and multispectral information processing principles are considered. Selection algorithm is constructed based on modular approach, which is unification basis of wide range of soft hardware for different HPW systems