Pavel Evgenjevich Timoshenko
Associate Professor
Faculty of Physics
Research interests:
Job: Senior Lecturer
Degree: Ph.D. Physical and Mathematical Sciences
e-mail: P.E.Timoshenko at Google Mail
Birthday: 9 June 1983
Education
Experience
- Since 04.2013 -- Senior Lecturer (0.5 rate) at Nanotechnology Department of Physics Faculty of Southern Federal University.
- Since 06.2006 -- Engineer (1.0 rate) at Nanotechnology Department of Physics Faculty of Southern Federal University.
- 09.2010 - 04.2013 -- Assistant (0.5 rate) at Nanotechnology Department of Physics Faculty of Southern Federal University.
Field of Science
- Methods of computing microwave electrodynamics.
- Investigation of the properties and the development of microwave devices based on ferrite structures, exciting magnetostatic spin waves.
- The study of periodic structures -- photonic crystals and magnon (1D- and 2D-periodic and quasi-periodic structures based on ferromagnetic and ferroelectric films).
- Mathematical modeling of microwave electronics elements with modern software and technologies.
Area of Interests
- Development of information systems
- Agile methods of software development (Microsoft Solutions Framework, Unified Process)
- Team developing (Team Foundation Server)
- Object-oriented programming (OOP)
- Modern programming technologies (JavaFx, Windows Presentation Foundation, ADO.NET with LINQ and Entity, Workflow Foundation, Adobe Flex, Component Object Model, Services, Windows Management Interfaces, Microsoft Foundation Classes, XNA Framework)
- Parallel computing and asynchronous programming (OpenMP, MPI, Windows Communication Foundation, Task-based asynchronous programming -- async/await in C#, CUDA, CUDA for .NET)
- Databases (entity-relationship models, SQL, DBMS: SQLServer, MySQL, PostgreSQL, SQLite)
- Problem-oriented programming languages (Java, C#, C++, Delphi, Pascal, F#, Perl, Python, Ruby, Basic, Fortran)
- Low-level programming language Assembler
- Driver developing and debugging kits for Windows (SoftICE, WinDAsm, IDA, Driver Development Kit)
- Mathematical modeling
- Computer Algebra System (Maple, MatLAB, MathCAD, Matematica, Origin)
- Numerical methods
- Methods of computational microwave electrodynamics
- Analytical and numerical modeling of microwave devices
- Software packages for modeling of microwave devices (COMSOL)
- Web-design
- Modern approaches for user interface design in application and sites
- Declarative markup languages (XML, XSLT, XAML, HTML, CSS)
- Scripting languages (JavaScript, VBScript)
- Server-side programming languages (PHP, ASP.NET)
- Flash animation (Adobe Flash, ActionScript)
- Java web technologies (applets, servlets)
- Microsoft.NET web technologies (Silverlight, XBAP)
- Libraries for developing web applications and user interfaces (ExtJS, jQuery, YUI, Prototype)
- Modules development for content management systems (Moodle, Joomla, Drupal)
- Modules development for enterprise portals (Microsoft SharePoint)
- Software technologies in modern electronics
- Programming microcontrollers, PLIS, DSP (Assembler, C++, VHDL, Verilog)
- Communication interfaces (RS-232, USB)
- Data acquisition and processing system (LabVIEW)
- System administration
- Hardware and software packet's routing
- Network devices (transmission media, routers, switches, etc.)
- Network operating systems (Windows, Unix)
- Command shells (MS Command, PowerShell, bash)
- Virtualization technologies
- Office system software
- Modern methods editing documents (based on styles)
- Office systems (Microsoft Office with VBA, OpenOffice)
- LaTeX
- Graphical editors (GIMP, InkScape, Corel, Adobe)
- Engineering and computer graphics (AutoDesk AutoCAD with AutoLISP, VBA; AutoDesk 3DSMax)
- Geographic information systems (developing ArcGIS add-ins based on COM technology and used C#, Java and Python languages)
- Project management system (Microsoft Project)
Educational and Methodical Work
- Nanotechnology Department of Physics Faculty of Southern Federal University
- 222900 -- "Nanotechnology and Microsystems Engineering”
- Engineering and Computer Graphics (lectures and practices, 1 term)
- Technical drawing, AutoDesk AutoCAD
- Information Technology (lectures and practices, 1-3 terms)
- Term 1: numerical methods, C# (Console and WinForms applications), OOP. (example of the first lecture: PowerPoint, PDF)
- Term 2: OOD, DBMS, SQL, ADO.NET, LINQ, WPF
- Term 3: basics OOA, team developing, TFS, MSF, MS Project.
- Information and Communication Technologies (lectures and practices, 4 term)
- Advanced using of Internet (i.e. searching command), using Microsoft Office in scientific work (styles, table of contents, styles, custom bibliography), plotting curves and spectra fitting in OriginLab Origin, system-design platform and development environment LabVIEW, computer algebra system MathWorks MatLAB with graphical simulation modeling Simulink.
- Methods of mathematical modeling (seminars, 6 term)
- Differential models (theory of dynamical systems, the dynamics of biological populations, limit cycles and oscillations, self-organization and pattern formation, fractals, chaotic behavior of dynamical systems), stochastic and deterministic models (percale theory, modeling of dendrite growth, cellular automata, Ising model, genetic algorithms).
- Methods of mathematical modeling (lectures and practices, 1 term of magistracy)
- Additional chapters of the theory of functions of a complex variable, asymptotic methods and special functions, Fourier transform, fuzzy logic and neural network.
- Computer technologies in science (lectures and practices, 2 term of magistracy)
- Document preparation system and document markup language LaTeX, using Java in numerical modeling of physics problems
- 210600 -- "Nanotechnology”
- Engineering and Computer Graphics (lectures and practices, 1 term)
- Technical drawing, AutoDesk AutoCAD
- Informatics (lectures and practices, 1-2 term)
- Computational physics (practices, 2 term)
- Programming in C#, numerical methods
- Computer methods in modern science (seminars, 3 term)
- Using computer algebra systems of Maple, MatLAB for solving physics problems.
- Methods of mathematical modeling (seminars, 7 term)
- Differential, stochastic and deterministic models.
- Computer technologies in science (lectures and practices, 2 term of magistracy)
- Document preparation system and document markup language LaTeX, using Java in numerical modeling of physics problems
- Radiophysics Department at Physics Faculty of Southern Federal University
- Engineering and Computer Graphics (lectures and practices, 1 term)
- Technical drawing, AutoDesk AutoCAD
- Additional training courses "Systems Engineer” at Physics Faculty of Southern Federal University
- Programming in C# (practices)
- Basics of programming language C#, regular expressions, writing PowerShell add-ins
- Technical facilities of computers and networks, its service and repair (practices)
- Computer architecture, network equipment, IT-infrastructure planning and design of networks, servers, data centers, virtualization technology
Professional Skills Improvement
- 19.11.2012 - 01.12.2012 -- "Modern technology and interactive forms of learning and training students in the field of "Materials Science and Technology of Materials” ("Nanotechnologies and Nanomaterials” training program) (certificate number 3410, at Don State Technical University, 72h.)
- 01.11.2011 - 12.11.2011 -- "Supercomputer technology for solving problems of natural science” (certificate number 027-397 at Southern Federal University, 72h.)
- 21.11.2011 - 30.11.2011 -- "Supercomputer technology for solving problems of natural science” (certificate number 50 at Southern Federal University, 72h.)
- 21.09.2011 - 30.09.2011 -- "Advanced training for teachers and researchers in the field of multiprocessor systems and parallel programming” (certificate number 8868 at Southern Federal University, 72h.)
- 20.10.2010 - 27.12.2010 -- "Hardware and software maintenance networks of educational organizations” (certificate number 6995 at South-Russian Center of Informatization of Southern Federal University, 72h.)
- 20.10.2009 - 20.12.2009 -- "System administration of educational organizations” (certificate number 6597 at Southern Federal University, 158h.)
- 24.09.2007 - 20.12.2007 -- "Improvement language communicative competence for administrative and scientific-pedagogical staff of natural science and engineering faculties” (certificate number 1205 at Southern Federal University, 100h.)
Scientific Publications in Peer-Reviewed Journals
- P.E. Timoshenko, V.N. Ivanov, R.K. Babichev, A.V. Shloma "Scattering of forward bulk magnetostatic waves by a defect of the surface of a ferromagnetic film magnetized at an arbitrary angle” // Journal of Communications Technology and Electronics. 2012. V. 57. N. 5. PP. 480-489. (DOI: 10.1134/S1064226912050099)
- P.E. Timoshenko, V.N. Ivanov, R.K. Babichev, A.V. Shloma "Diffraction of surface magnetostatic waves by surface cavities on ferromagnetic film” // Journal of Communications Technology and Electronics. 2012. V. 57. N. 7. PP. 726-733. (DOI: 10.1134/S1064226912060137)
- V.N. Ivanov, V.I. Zubkov, E.R. Babicheva, P.E. Timoshenko "Impedance of the microstrip line for magnetostatic forward volume waves”. // Electromagnetic waves and electronic systems. 2010. N. 5. PP. 64-67.
- I.N. Leontyev, B. Dkhil, V.E. Guterman, E.B. Pakhomova, P.E. Timoshenko, A.V. Guterman, I.N. Zakharchenko, G.P. Petin "XRD and electrochemical investigation of particle size effects in platinum-cobalt cathode electrocatalysts for oxygen reduction” // Journal of Alloys and Compounds. 2010. V. 500. N. 2. P. 241-246. (DOI: 10.1016/j.jallcom.2010.04.018)
- P.E. Timoshenko, E.R. Babicheva, V.N. Ivanov, V.I. Zubkov, "Impedance of the microstrip line for magnetostatic backward volume waves”. // Radiophysics and Quantum Electronics. 2009. V. 52. N. 12. PP. 892-899. (DOI: 10.1007/s11141-010-9197-9)