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Publications in area "Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications"

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1. Control of coupled hysteretic dynamics of ferroelectric materials with a Landau-type differential model and feedback linearization 2009 L. Wang, R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
2. Coupled electromechanical effects in II-VI group finite length semiconductor nanowires 2009 S. Patil, R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
3. Thermoelectromechanical effects in quantum dots 2009 S. Patil, R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
4. Thermopiezoelectric effects on optolectronic properties of CdTe/ZnTe quantum wires 2009 S. Patil, R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
5. Relative stability of nanosized wurtzite and graphitic ZnO from density function theory 2008 B. Wen, R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
6. Young modulus and phase stability of ZnO nanowires under uniaxial stress: A first principles study 2008 Wen B, Melnik RVN Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
7. First passage time for multivariate jump-diffusion processes in finance and other areas of applications 2008 D. Zhang and R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
8. Temperature-dependent phase stability of CdS quantum dots from first-principle molecular dynamic calculations 2008 Wen B, Melnik RVN Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
9. First principles molecular dynamics study of CdS nanostructure temperature-dependent phase stability 2008 Wen B, Melnik RVN Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
10. Advanced Monte Carlo study of the Goldstone mode singularity in the 3D XY model 2008 Kaupuzs, J., Melnik, R.V.N., Rimshans, J. Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
11. Strain effects and temperature-dependent phase stability of II-VI semiconductor nanostructures 2008 S. Patil, B. Wen and R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
12. A molecular dynamics study of RNA hexaring nanostructures 2008 M. Paliy, R. Melnik, and B. Shapiro Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
13. Strain and electromechanical effects in II-VI group semiconductor nanowires 2008 S. Patil and R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
14. Properties of quantum wires with polygonal inclusions and Eshelby formulations for anisotropic thermo-piezolectric full and half planes 2008 S. Patil and R. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
15. Nonlinear dynamics of cell cycles with stochastic mathematical models 2008 X. Wei, R.V.N. Melnik, G. Moreno-Hagelsieb Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
16. Forced dynamics and stability of RNA nanostructures 2008 M. Paliy, R. Melnik, and B. Shapiro Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
17. Thermopiezoelectric and nonlinear electromechanical effects in quantum dots and nanowires 2008 S. Patil, M. Bahrami-Samani, R.V.N. Melnik, M. Toropova and J. Zu Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
18. Accounting for the effect of internal viscosity in dumbbell models for polymeric fluids and relaxation of DNA 2007 X.-D. Yang and Roderick V.N. Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
19. First passage time for multivariate jump-diffusion stochastic models with applications in finance 2007 Di Zhang, Roderick Melnik Modelling dynamics of coupled systems for nanotechnology, biological and stochastic applications
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