He studied physics and meteorology in the Sofia University. After that, he was Ph.D. student at the Bulgarian Academy of Sciences.
S. Panchev specialised meteorology in Russia, USA and Japan.
Research
He investigated theory of chaos and turbulent dynamics.
Professional Experience:
Teaching activities:
S. Panchev was invited professor in the universities in Russia, USA, Japan and Serbia
Publications
S. Evtimov, S. Panchev, T. Spassova, On the Lorenz System with Strengthened Nonlinearity, Comptes rendus de l’Academie bulgare des Sciences, 53 (3) 33-36 (2000)
S. Panchev, Random Functions and Turbulence, Oxford, Pergamon Press (1971)
S. Panchev, Dynamic Meteorology, Hague: D Reidel (1985)
S. Panchev, On the theory of geostrophic adjustment in nonadvective approximation, Bulgarian Geophysical Journal, vol. 11 (No 4) 17-25 (1985)
S. Panchev, T. Spassova, A Theoretical Approach to the Problem of Blocking Due to Synoptic Scale Topography, (1991)
S. Panchev, Comptes rendus de l’Academie bulgare des Sciences, 50 (6) 55-58 (1997)
S. Panchev, T. Spassova, The Lorenz chaotic system with modified X-, Y-equations, Bulletin Of The Calcutta Mathematical Society (91) 17-28 (1999)
S. Panchev, T. Spassova, Reaction of two simple nonlinear dynamical systems to constant forcing, Atmosfera, 12 (3) 161-171 (1999)
S. Panchev, T. Spassova, P. Stamenov, A Nonlinear Oscillator Derived from the Lorenz Chaotic System, Comptes rendus de l’Academie bulgare des Sciences, 54 (11) 27-32 (2001)
S. Panchev, Analytical properties of the Sprott’s chaotic flows, Chaos Solitons and Fractals, 21 (3) 721-728 (2004)
S. Panchev, T. Spassova, The Lorenz chaotic systems as nonlinear oscillators with memory, Atmosfera, 17 (3) 171-181 (2004)
S. Panchev, N. K. Vitanov, On asymptotic properties of some complex Lorenz-like systems (2005)
S. Panchev, T. Spassova, Simple general atmospheric circulation and climate models with memory, Advances in Atmospheric Sciences, 22 (5) 765-769 (2005)
S. Panchev, M. Tsekov, Empirical evidences for chaos and persistencein solar-terrestrial phenomenon, Journal of Atmospheric and Solar-Terrestrial Physics (69) 2391-2404 (2007)
S. Panchev, T. Spassova, N. K. Vitanov, Analytical and numerical investigation of two families of Lorenz-like dynamical systems, Chaos Solitons and Fractals, 33 (5) 1658-1671 (2007)
T. Spassova, S. Panchev, On a Non-Linear Dynamical System Defuved from the Shallow Water Equations, (1996)
T. Spassova, S. Panchev, Structural Sensitivity of the Lorenz Low Order System, Bulgarian Journal of Meteorology and Hydrology, v. 8 (3-4) 121-130 (1997)
T. Spassova, S. Panchev, A nonstandard statistics and its applications in meteorology and hydrology, Bulgarian Journal of Meteorology and Hydrology, v. 15 (2) 81-93 (2010)
T. Spassova, S. Panchev, A shallow water type model of large scale atmospheric dynamics, BJMH, vol. 16 (No 2) 2-11 (2011)
T. Spassova, S. Panchev, Mean levels in polytropic model of the atmosphere, BJMH, vol. 16 (No 2) 12-17 (2011)
T. Spassova, S. Panchev, Dynamical models of verticaly integrated atmosphere, Bulgarian Journal of Meteorology and Hydrology, v. 19 (1-2) 33-42 (2014)
M. Tsekov, S. Panchev, Decadal variability in the diurnal temperature range and daily sunshine duration in Sandanski region, southwest Bulgaria, Comptes rendus de l’Academie bulgare des Sciences, 60 (5) 487-492 (2007)
M. Tsekov, S. Panchev, Usage of annual versus daily and monthly data in the scaling analysis of meteorological time series, Comptes rendus de l’Academie bulgare des Sciences, 60 (1) 31-36 (2007)
M. Tsekov, S. Panchev, Magnitude and sign correlations in sunshine duration and diurnal temperature range records from the Sandanski weather station, Comptes rendus de l’Academie bulgare des Sciences, 60 (12) 1283-1288 (2007)
References
Stoycho Panchev
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