In the context of dynamically updated professionally oriented information, the "erasure" of interdisciplinary boundaries, the demand for metasubject competencies the modern higher education system ...faces the need not only to choose innovative forms, methods and means of organizing the educational process, but to update the content of education taking into account the requirements for a modern graduate whose personal subject position in the process of his professional activity should be clearly "formalized" upon receiving his diploma. The theoretical study confirmed the demand for updating the content both on the behalf of the pedagogical community, and the employers who note the lack of readiness of most university graduates to make independent decisions in real professional situations and be responsible for them. This fact actualizes the need to study the problem of updating educational content through strengthening interdisciplinary links in the process of integrated language-professional training from the position of a subject-centered approach.
In this paper, we studied magnetic properties of Heusler-type glass-covered microwires and thin films. The results have shown that we succeeded to prepare Ni-Mn-In thin films and Ni-Mn-Ga and ...Ni-Mn-In microwires that have martensitic and austenitic phases at room temperature.
The results of magnetoelectric effect experimental studies in two different structures based on piezoelectric semiconductor gallium arsenide are presented. The monolithic structure consisted of a ...gallium arsenide substrate with deposited nickel layer (GaAs-Ni), and the composite structure contained a semiconductor substrate with an amorphous magnetic alloy (GaAs-Metglas) ribbon glued on one side. A quality factor
Q
≈ 23500 and magnetoelectric coefficient of 316 V/Oe.cm were achieved at the frequency of planar acoustic oscillations for GaAs-Ni structure at room temperature.
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IZUM, KILJ, NUK, PILJ, PNG, SAZU, UL, UM, UPUK
We propose a model of a programmable quantum processing device realizable with existing nanophotonic technologies and which can be viewed as a basis for new high performance hardware architectures. ...The physical architecture is formalized by a mathematical model of the Quantum Processing Unit (QPU), which is a hardware-specific modification of the quantum circuit model of computation, and it is universal as well, since the available set of operations provides a universal basis for quantum computations. The proposed model is a basis for the Quantum Programming Framework running over JAVA virtual machine that makes it possible to perform universal quantum computations in a multitasking environment. This framework has two main parts - the dispatcher and the service. The service adapts the high-level user commands to the low level for further implementation. The dispatcher was created to support the different types of connections between the classical computer and the QPU - it can be either a physical device or a QPU emulator.
We propose a model of a programmable quantum processing device realizable with existing nanophotonic technologies and which can be viewed as a basis for new high performance hardware architectures. ...We present protocols and their physical implementation on the controlled photon transfer for executing basic single-qubit and multi-qubit gates. The possible operation of this quantum computer scheme is analyzed. The physical architecture is then formalized by a mathematical model of the Quantum Processing Unit (QPU), which is used as a basis for the Quantum Programming Framework that makes it possible to perform universal quantum computations in a multitasking environment.