Publications 1969-2014


·         Phenomenological Response Theory to Predict Power Output, 
Alexander Rauh, Edgar Anahua, Stephan Barth, and Joachim Peinke;  
in: Wind Energy Proceedings of Euromech Coll. 464b Oldenburg (2005), 
Editors: Joachim Peinke, Peter Schaumann, Stephan Barth; Springer, Berlin (2007).

·          A phenomenological model for the dynamic response of wind turbines to turbulent wind, 
Alexander Rauh and Joachim Peinke, Journal of Wind Engineering and Industrial Aerodynamics, 92 (2004), 159-183  

·         Wege zum Hofstadterschen Schmetterling, Alexander Rauh,

In: Schmetterlinge im Festkörper, Red. Christian Forstner, Universität Regensburg, p. 83-88 (2004)


·         Energy inconsistency of Galerkin approximation for plane Couette flow, Alexander Rauh, Steffen Page, and Andreas Spille,

Reports on mathematical physics, 54 (2004), 23-40


·         On energy balances of Galerkin approximations for the incompressible Navier Stokes equations, Steffen Page and Alexander Rauh,

International journal of differential equations and applications, 5 (2002), 379-394


·         On the explicit form of the Grobman-Hartman homeomorphisms for dissipative dynamical systems,
Nikola Buric and Alexander Rauh
Reports on Mathematical Physics, 50, 143-154 (2002)

·         Applying chaos control to a modulated complex nonlinear system,
G.M. Mahmoud, A. Rauh, and A.A.Mohamed,
Il Nuovo Cimento 116 B,  1113-1126 (2002)


·         Critical curves of plane Poisueille flow with slip boundary conditions,
A. Spille and A. Rauh,
Nonlinear Phenomena in Complex Systems 3(2) 2000, 171-173



·         On modulated complex non-linear dynamical systems, 
G.M.Mahmoud, A.Rauh, A.A.Mohamed,
Il Nuovo Cimento 114 B, 31-47 (1999)


·         Remarks on unsolved basic problems of the Navier-Stokes equations
A.Rauh ,
Nonlinear Phenomena in Complex Systems 2(3) 1999, 32-37

·         Global stablility of systems related to the Navier-Stokes equations,
Nonlinear Phenomena in Complex Systems 2 (1), 78-82 (1999)


·         Remarks on perturbation theory for Hamiltonian systems,
A. Rauh,
Nonlinear Phenomena in Complex Systems 2 (2), 35-43 (1999)



·         Remarks on the N-Body Problem in Celestial Mechanics,
A. Rauh,
in: Proceedings of the Ninth International Colloquium on Differential Equations, Plovdiv, 1998, Ed. D. Bainov, p. 361-368

·         Local dynamics of some algebraic maps,
V.G.Romanowski, A.Rauh,
Dynamic Systems and Applications 7, 4 (1998), 529-552


·         Finite time singularities of solutions of a class of nonlinear Schrödinger equations,
A.Karabis, E.Minchev, A.Rauh,
International Journal of Theoretical Physics 37, 5 (1998), 1593-1606



·         Finite time singularities of solutions of initial-boundary value problem for the Davey-Stewartson system,
D.Bainov, E.Minchev, A.Rauh,
Communications in Applied Analysis 2 (1998), 421-430



·         Global stability properties of the complex Lorenz model,
A. Rauh, L. Hannibal, N.B. Abraham,
Physica D 99, pp. 45 (1996)



·         Nonlinear stability analysis of plane Poiseuille flow by normal forms,
A. Rauh, T. Zachrau, J.Zoller,
Physica D 86, pp. 1 (1995)

·         Some estimates regarding a finite time stability problem of the Sun-Earth-Jupiter system,
A. Rauh,
Cel. Mech. 55, pp. 161 and  Erratum p. 415 (1993)


·         Simulation of river-discharge fronts with lattice gas automata,
Ch. F. Kougias, G. Krause, and Alexander Rauh,
In: Discrete models of fluid dynamics/ed. A. S. Alves, Singapore, 1991 (Series on advances in mathematics for applied sciences; 2), pp. 156-165



·         Decoupling of dissipative flows by interval normal forms,
A.Rauh und H.J.Pade,
Rep.on Mathem. Phys. 27, pp.13 (1989)


·         Symmetry in the normal form of the Hénon-Heiles Hamiltonian,
A. Rauh, F.S. Andrade, Ch. Kougias,
In: Singular behaviour and nonlinear dynamics, ed. by St. Pneumatikos, T.Bountis, Sp.Pneumatikos, p.97, Singapore 1989


·         Application of normal forms to the Lorenz model in the subcritical region, J. Pade, A.Rauh, anf G. Tsarouhas, Physica D 29 (1987),  236-246


·         Analytical investigation of the Hopf bifurcationin the Lorenz model,  J. Pade, A. Rauh, G. Tsarouhas, Phys. Lett. A

115(1986), p. 93                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   


·           Physik und Rüstung am Beispiel des Manhatten-Projekts, Alexander Rauh, In: Wir mischen uns ein, Ed. Arnulf Hopf,

Universität Oldenburg 1985 



·         The Betz optimum efficiency for windmills,  A. Rauh and W. Seelert,  Applied Energy 17 (1984), pp.15 


·         Nonlinear stability analysis of the Lorenz model by Lyapunov’s direct method, R.F.S. Andrade and A. Rauh, Zeitschrift f. Physik B  50 (1983), p.151


·         Crystal electrons in magnetic fields: second order perturbation for general periodic potentials, A. Rauh and H.J. Schellnhuber, Nuovo Cimento D 1 (1982),  155-168  


·         Diamagnetic band structure, A. Rauh and H.J. Schellnhuber, Physica status solidi B 106 (1981), pp. 537  


·         First principle calculation of diamagnetic band structure,  H. J. Schellnhuber, G. Obermair, and A. Rauh, Phys. Rev. B23 (1981), pp.5191      


·         The Lorenz model and the method of Carleman embedding,  R.F.S. Andrade and A. Rauh, Phys. Lett. A. 82  (1981), pp. 276  


·         Unabhängig mit Sonnenenergie,  Pitter Gräff und Alexander Rauh, Kindler Verlag, München 1980


·         Analytical wave functionsfor crystalline electrons in a magnetic field, A. Rauh, R.S. Salinas, and L.C. de Menezes, Phys. Rev. B 17 (1978), pp. 591


·         Random spherical model in non-zero magnetic fields, L.C. de Menezes, A. Rauh, and R.S. Salinas, Phys. Rev. B 15 (1977), pp. 3485


·         Critical properties of a three-dimensional spherical model with random spin layers, A. Rauh, Phys. Rev. B 13 (1976).  pp. 2080


·         Griffiths singularity in the specific heat of a random spherical model, A. Rauh, Phys. Rev. B 14 (1976), pp. 1997


·         On the broadening of Landau levels in crystals, A. Rauh, Physica status solidi B 69 (1975), pp. K9-K13


·         Bloch electrons in irrational magnetic fields,  A. Rauh, G. Wannier, and G. Obermair, Physical status solidi B 63 (1974), pp. 215-229 


·         Theory of Stark ladders in the optical absorption of solids, A.  Rauh and G. Wannier, Solid state communications 15 (1974), pp. 1239-1241 


·         Degeneracy of Landau levels in crystals, A. Rauh, Physica status solidi B 65 (1974), pp. K131-K135 


·         Longitudinal sum rule for the general dielectric function, A. Rauh, Zeitschrift f. Physik  251 (1972), pp.195-201


·         Lokale Feldkorrekturen zum Elektron-Phonon-Matrixelement mit Anwendung auf den elektrischen Widerstand von Natrium im Bereich tiefer Temperaturen, Zeitschrift f. Naturforschung A 26 (1971), pp. 1676-1683 


·         Zur Quantentheorie des elektrischen Restwiderstandes: System kleiner Störstellendichte, A. Rauh, Zeitschrift f. Naturforschung A 24 (1969), pp. 170-189


·         Zur Quantentheorie des elektrischen Restwiderstandes: System hoher Störstellendichte mit Anwendung auf CuAu, A.Rauh, Zeitschrift f. Naturforschung A 24 (1969), pp. 1859-1870





                                                                          Alexander Rauh          August 2016