Hauptinhalt

References

Noninear Dynamics

Fluid Dynamics, Turbulence

Phase Transition

Nonlinear Dynamics

  1. Invariant Distributions and Stationary Correlation Functions of One-Dimensional Discrete Processes, S.Großmann, S.Thomae, Z.Naturforsch. 32a, 1353-1363 (1977)
  2. Deterministisches Chaos, S.Großmann, Die Naturwissenschaften 68, 300-306 (1981)
  3. A Scaling Property in Critical Spectra of Discrete Systems, S.Großmann, S.Thomae, Phys.Lett. 83 A, 181-183 (1981)
  4. Correlations and Spectra of Periodic Chaos Generated by the Logistic Parabola, S.Großmann, S.Thomae, J. of Stat.Phys. 26, 485-504 (1981)
  5. Correlation Decay in the Lorenz Model as a Statistical Physics Problem, S.Großmann, B.Sonneborn-Schmick, Phys.Rev. A25, 2371-2384 (1982)
  6. Diversity and Universality - Spectral Structure of Discrete Time Evolution, S.Großmann, in "Evolution of Order and Chaos", Ed.H.Haken, Springer: Berlin, New York etc., 1982, 164-173
  7. Diffusion in discrete nonlinear dynamical systems H.Fujisaka, S.Großmann, Phys.Rev. A 26, 1779-1782 (1982)
  8. Chaos-Induced Diffusion in Nonlinear Discrete Dynamics, H.Fujisaka, S.Großmann, Z.Phys. B 48, 261-275 (1982)
  9. Deterministisches Chaos, S.Großmann, in "Rheinisch-Westfälische Akademie der Wissenschaften, Vorträge N 321", (ISBN 3-531-08321-X), Westdeutscher Verlag: Düsseldorf, 5-28, (1983)
  10. Chaos - Unordnung und Ordnung in Nichtlinearen Systemen, S.Großmann, Physikalische Blätter 39, 139-145 (1983)
  11. Shape dependence of correlation times in chaos-induced diffusion, S.Großmann, S.Thomae, Phys.Lett. 97 A, 263-267 (1983)
  12. Introduction to Chaos: Phenomenon, Structure of Spectra, Diffusion, S.Großmann, S.Thomae, in "Multicritical Phenomena", Eds. R.Pynn, A.Skjeltorp, Plenum Press: New York etc., 1984, 423-450
  13. Discrete Nonlinear Dynamics, S.Großmann, in "Non-Equilibrium Cooperative Phenomena in Physics and Related Fields", Ed. M.G.Velarde, Plenum Press: New York etc., 1984, 413-435
  14. Linear response in chaotic states of discrete dynamics, S.Großmann, Z.Phys. B 57, 77-84 (1984)
  15. Long Time Tail Correlations in Discrete Chaotic Dynamics, S.Großmann, H.Horner, Z.Phys. B 60, 79-85 (1985)
  16. Diffusion and Trapping on a Nested Fractal Structure, S.Großmann, F.Wegner, Z.Phys. B 59, 197-206 (1985)
  17. Anomalous diffusion on a selfsimilar hierarchical structure, S.Großmann, K.H.Hoffmann, F.Wegner, J.Physique (Paris) Lett. 46, L-575-L583 (1985)
  18. Chaos-induced diffusion. Analogues to Nonlinear Fokker-Planck Equations, H.Fujisaka, S.Großmann, S.Thomae, Z.Naturforsch. 40a, 867-873 (1985)
  19. Ergodicity and Entrainment in a System of Electrical Relaxation Oscillators, S.Großmann, E.Schnedler and S.Thomae, Ann.Phys. (Leipzig) 42, 307-318 (1985)
  20. Random Walk on a Fractal: Eigenvalue Analysis, mit K.H.Hoffmann and F.Wegner, Z.Phys. B 60, 401-414 (1985)
  21. Diffusion on Random Hierarchical Structures, A.Erzan, S.Großmann, A.Hernándes-Machado, J.Phys. A: Math.Gen. 20, 3913-3934 (1987)
  22. Decay and Diffusion in Hierarchically Organized Systems, A.Engel, S.Großmann, A.S.Mikhailov, Z.Phys. B 70, 101-114 (1988)
  23. Decay and Diffusion in Hierarchical Systems, S.Großmann, A.Engel, A.S.Mikhailov, Phys.Lett. A 126, 239-242 (1988)
  24. Chaos in the international arms race, S.Großmann, G.Mayer-Kress, Nature 337, 23. Febr. 1989, 701-704
  25. Gesetz und Chaos – Antinomie oder alltägliches Geschehen, Ed. Otto Molden, für den Inhalt verantwortlich Maria Auersperg, Wien, Europäisches Forum Alpbach 1989, S. 75-79, Österreichisches College         (ohne ISBN)
  26. Selbstähnlichkeit - Das Strukturprinzip im und vor dem Chaos, Phys.Bl. 45, 172-180 (1989)
  27. Selfsimilarity: A basic principle of nature - from geometry to analysis, Helvetica Physica Acta 63, 762-766 (1990)
  28. Predictability Portraits for Chaotic Motions, R.Doerner, S.Großmann, B.Hübinger, W.Martienssen, S.Thomae, Chaos, Solitons, and Fractals 1, 553-571 (1991)
  29. Gesetz und Chaos: Antinomie oder Charaktere der Natur, In “Wohin treibt die Moderne”, Studium Generale, Ruprecht-Karls-Universität, WS 1991/92, Heidelberger Verlagsanstalt, Heidelberg, 1992, 75-90
  30. Seltene Attraktion oder seltsamer Attraktor: Vom Ursprung und vom Heute des Nichtlinearen Chaos, S.Großmann, Annalen der Meteorologie, Bd.29, 13-40 (1994) [ISSN 0072-4122]
  31. Correlation functions in chaotic systems from periodic orbits, B.Eckhardt, S.Großmann, Phys.Rev. E 50, 4571-4576 (1994)
  32. Dynamic modelling of heart beat, S.Großmann, S. Ranft, Z.Naturforsch. 50a, 915-920 (1995)
  33. Nichtlineare Dynamik, W.Martienssen, H.Zimmermann, T.Kopp; S.Großmann, D.Lohse; T.Geisel, H.U.Bauer, in: Perspektiven der Forschung und ihrer Förderung, Aufgaben und Finanzierung 1997-2000, Grauer Plan 10 der DFG, 241-261, Verlag-VCH, Weinheim, (1997)
  34. Sound radiation of 3MHz driven gas bubbles, S.Großmann, S.Hilgenfeld, D.Lohse, M.Zomack, The Journal of the Acoustical Society of America (JASA) 02, 1223-1230 (1997)
  35. Analysis of the Rayleigh-Plesset dynamics for sonoluminescing bubbles, S.Hilgenfeld, S.Großmann, D.Lohse, J.Fluid Mech. 365, 171-204 (1998)
  36. A simple explanation of light emission in sonoluminescence, S.Hilgenfeldt, S.Großmann, D.Lohse, Nature 398, 402-405 (1999)
  37. Sonoluminescence light emission, S.Hilgenfeldt, S.Großmann, D.Lohse, Phys. Fluids 11, 1318-1330 (1999)
  38. Chaos(-Theorie) in der Physik: Wo stehen wir? S.Großmann, in: Komplexe Systeme und Nichtlineare Dynamik in Natur und Gesellschaft, Herausgeber: Klaus Mainzer, Springer, Berlin, etc. 1999, 49-51
  39. Stable manifolds and predictability of dynamical systems, R.Doerner, B.Hübinger, W.Martienssen, S.Großmann, S.Thomae, Chaos, Solitons, and Fractals 10, 1759-1782 (1999)
  40. Sonolumineszenz, S.Hilgenfeldt, S.Großmann, D.Lohse, Physikalische Blätter 56(2), 43-46 (2000)
  41. Extended phase diagram of the Lorenz model, mit Holger R. Dullin, Sven Schmidt und Peter H. Richter, Int. Journal on Bifurcation and Chaos (IJBC). Vol17(9), 3013-3033 (2007)
  42. Was besagt die Chaostheorie? Beitrag zum Buch "Beschränkt ist der große Bruder von blöd. Klüger werden leicht gemacht", Herausgeber Frank Bruder, Begleitbuch zu 5 Jahre Sendung "Die Profis" von RBB, Rowohlt Verlag, April 2011

Fluid Dynamics, Turbulence

  1. Turbulent Transport Equations and Kubo Formulae for Eddy Transport Coefficients, S.Großmann, Z.Naturforsch. 26a, 1782-1791 (1971)
  2. Steady State Probability Distribution for Turbulence Fluctuations, in "Proc. International IUPAP Conference on Statistical Physics", August 25-29, 1975, Budapest, Ed. N. Menyhárd, Akadémiai Kiadó, Publishing House of the Hungarian Academy of Sciences, Budapest 1975, S. 189, ISBN 963-05-0863 X
  3. An order-parameter field theory for turbulent fluctuations, S.Großmann, Phys.Rev. A 11, 2165-2172 (1975)
  4. Steady State Probability Distribution for Turbulence Fluctuations, S.Großmann, Z.Phys. B 21, 403-408 (1975)
  5. Scaling Properties of Fluctuations in Stationary Turbulence, S.Großmann, Z.Phys. B 22, 401-406 (1975)
  6. Scattering of Light in an Inhomogeneous Fluctuating Plasma, S.Großmann, E.Schnedler, Optics Communications 18, 341-346 (1976)
  7. Fluctuation Correlations of the Turbulence Spectrum by Renormalization Group Methods, S.Großmann, E.Schnedler, Z.Phys. B 26, 307-317 (1977)
  8. Correlation Decay of Lagrangean Velocity Differences in Locally Isotropic Turbulence, S.Großmann, S.Thomae, Z.Phys. B 49, 253-261 (1982)
  9. Unified theory of relative turbulent diffusion, S.Großmann, I.Procaccia, Phys.Rev. A 29, 1358-1365 (1984)
  10. Is isotropic turbulent diffusion symmetry restoring?, H.Effinger, S.Großmann, Phys.Rev.Lett. 53, 442-445 (1984)
  11. Do molecular properties affect atmospheric dispersion of vapors?, S.Großmann, I.Procaccia, P.S.Stern, Phys.Lett. 104 A, 140-142 (1984)
  12. ully Developed Turbulence as a Complex Structure in Nonlinear Dynamics, S.Großmann, in "Complex Systems-Operational Approaches", Ed.H.Haken, Springer: Berlin, New York, etc., 1985, 342-352
  13. Theorie der Turbulenz aus heutiger Sicht, S.Großmann, Annalen der Meteorologie, Neue Folge 23, 115-118 (1986)
  14. Diffusion in Fully Developed Turbulence, A Random Walk on a Fractal Structure, S.Großmann, in "Fluctuations and Stochastic Phenomena in Condensed Matter", Ed.L.Garrido, Lecture Notes in Physics 268, Springer: New York, etc., 1987, 287-314
  15. Selfsimilarity of Developed Turbulence, H. Effinger, S.Großmann, in "The Physics of Structure Formation", Eds.W.Güttinger, G.Dangelmayr, Springer: Berlin, New York, etc., 1987, 346-351
  16. Static Structure Function of Turbulent Flow from the Navier- Stokes Equations H. Effinger, S.Großmann, Z.Phys. B 66, 289-304 (1987)
  17. Prandtl Number Dependence of Turbulent Temperature Spreading - Unified Theory, H.Effinger, S.Großmann, Physics of Fluids, A1(6), 1021-1026 (1989)
  18. Spatial Chaos and Selfsimilarity in Developed Turbulence in: Noise and Chaos in Nonlinear Dynamical Systems, S.Großmann, Eds. F.Moss, L.A.Lugiato, W.Schleich, Proc.Workshop Turin, March 1989 Cambridge Univ.Press: Cambridge 1990, p. 228-240
  19. Turbulenz, S.Großmann, Phys.Blätter 46, Nr1, 2-7 (1990)
  20. Turbulence and Navier-Stokes-equations, in: Dissipative Structures in Transport Processes and Combustion, S.Großmann, Editor D.Meinköhn, Springer Series in Synergetics, Springer, Berlin etc., 1990, p.2-8
  21. Diffusion by Turbulence, S.Großmann, Ann.Phys. (Leipzig) 47, 577-582 (1990)
  22. Does deterministic chaos in fully developed turbulence imply intermittency?, J.Eggers, S.Großmann, Phys.Fluids A 3, 1958-1968 (1991)
  23. Origin of the Obukhov scaling relation in turbulence, J.Eggers, S.Großmann, Physics Letters A 153, 12-15 (1991)
  24. Effect of dissipation fluctuations on anomalous velocity scaling in turbulence, J.Eggers, S.Großmann, Phys.Rev. A 45, 2360-2369 (1992)
  25. Anomalous turbulent velocity scaling from the Navier Stokes equation, J.Eggers, S.Großmann, Phys.Letters A 156, 444-449 (1991)
  26. Stokes Modes in Taylor-Couette Geometry, T.Gebhardt, S.Großmann, Z.Naturforsch 46a, 669-676 (1991)
  27. Fourier-Weierstrass Mode Analysis for Thermally Driven Turbulence, S.Großmann, D.Lohse, Phys.Rev.Lett. 67, 445-448 (1991)
  28. Structure functions in two-dimensional turbulence, S.Großmann, P.Mertens, Z.Phys.B-Condensed Matter 88, 105-116 (1992)
  29. Scaling in hard turbulent Rayleigh-Bénard flow, S.Großmann, D.Lohse, Phys.Rev. A 46, 903-917 (1992)
  30. Intermittency in the Navier-Stokes dynamics, S.Großmann, D.Lohse, Z.Phys.B-Condensed Matter 89, 11-19 (1992) Contributions to the Dortmunder Dynamische Woche, 3. Juni-Woche 1992, Eds. Stefan C. Müller and Theo Plesser, Projekt-Verlag Dortmuind, 1992, 90-92, ISBN 3-928861-07-7
  31. Theorist's view of a beautiful experiment: How many states of developed Rayleigh-Bénard turbulence, S. Grossmann, D. Lohse, in "Spatio-Temporal Organization in Nonequilibrium Systems", Contributions to the Dortmunder Dynamische Woche, 3. Juni-Woche 1992, Eds. Stefan C. Müller und Theo Plesser, Projekt-Verlag Dortmund, 1992, 90-92, ISBN 3-928861-07-7
  32. Characteristic scales in Rayleigh-Bénard turbulence, S.Großmann, D.Lohse, Physics Letters A 173, 58-62 (1993)
  33. The Taylor-Couette eigenvalue problem with independently rotating cylinders, T.Gebhardt, S.Großmann, Z.Phys.B-Condensed Matter B 90, 475-490 (1993)
  34. Intermittency in turbulence, S.Großmann, D.Lohse, Physica A 194, 519-531 (1993)
  35. Intermittency Exponents, S.Großmann, D.Lohse, Europhysics Letters 21, 201-206 (1993)
  36. Thermally driven turbulence, S.Großmann, D.Lohse, in "Statistical Physics and Thermodynamics of Nonlinear Nonequilibrium Systems", Eds. W.Ebeling, W.Muschik, World Scientific, Singapore (1993) pp 87-96
  37. Crossover of spectral scaling in thermal turbulence, S.Großmann, Victor L'vov, Phys.Rev. E 47, 4161-4168 (1993)
  38. Intermittency: Results from a reduced wave vector set calculation, S.Großmann, D.Lohse, Physica Scripta T 49, 77-79 (1993)
  39. Scale resolved intermittency in turbulence, S.Großmann, D.Lohse, Phys.Fluids 6, 611-617 (1994)
  40. Fractal dimension crossovers in turbulent passive scalar signals, S.Großmann, D.Lohse, Europhysics Letters 27, 347-352 (1994)
  41. Turbulenz, S.Großmann, in: "Komplexe Systeme zwischen Atom und Festkörper", Eds. K. Kramer, K. Sturm, W. Zimmermann, 25. IFF-Ferienkurs, Forschungszentrum Jülich, 1994 (ISBN 3-89336-128-6)
  42. Turbulence and Navier-Stokes-Equations, S.Großmann, in: Fundamental Problems in Statistical Mechanics VIII", Eds. H.van Beijeren, M.H.Ernst, North-Holland/Elsevier: Amsterdam, 1994, pp 279-303
  43. Universality in fully developed turbulence S.Großmann, D.Lohse, Phys.Rev. E 50, 2784-2789 (1994)
  44. Taylor-Couette flow with time modulated inner cylinder velocity, A.Ganske, T.Gebhardt, S.Großmann, Physics Letters A 192, 74-78 (1994)
  45. Modulation effects along stability border in Taylor-Couette flow, A.Ganske, T.Gebhardt, S.Großmann, Phys.Fluids 6, 3823-3832 (1994)
  46. Finite size corrections to scaling in high Reynolds number turbulence, S.Großmann, D.Lohse, V.L'vov, I.Procaccia, Phys.Rev.Lett. 73, 432-435 (1994)
  47. Turbulenz, S.Großmann, in "Chaos und Strukturbildung", Herausgeber: H.Bremer, S.Habermeier, S.Wladarsch, FAKTUM-Verlag, TU München, 1994, 11-16
  48. Chaos transition despite linear stability, T.Gebhardt, S.Großmann, Phys.Rev. E 50, 3705-3711 (1994)
  49. Rigorous bound on plane shear flow dissipation rate, T.Gebhardt, S.Großmann, M.Holthaus, M.Löhden, Phys.Rev. E 51, 360-365 (1995)
  50. Asymptotic dissipation rate in turbulence, S.Großmann, Phys.Rev. E 51, 6275-6277 (1995)
  51. Spectra and structure functions in the REWA approach to high Re turbulence, S.Großmann, D.Lohse, A.Reeh, in "Dynamical Systems and Chaos", Vol.2, 209-217, Eds. Y.Aizawa, S.Saito, K.Shiraiwa, World Scientific: Singapore, 1995 (Proc.Int.Conf. in Tokyo, 23-27 May 1994)
  52. Wie entsteht eigentlich Turbulenz?, S.Großmann, Phys.Bl. 51, 641-646 (1995)
  53. Analytic expression for Taylor-Couette stability border, A.Esser, S.Großmann, Phys.Fluids 8, 1814-1819 (1996)
  54. Wavelet analysis of Navier-Stokes Flow, S.Großmann, M.Löhden, Z.Phys. B 100, 137-147 (1996)
  55. Instability without Instability?, S.Großmann, in: "Nonlinear Physics of Complex Systems - Current Status and Future Trends", Eds. J.Parisi, S.C.Müller, W.Zimmermann, Springer: Berlin, etc. 1996, S. 10-22
  56. Developed Turbulence: from full simulations to full mode reduction, S.Großmann, D.Lohse, A.Reeh, Phys.Rev.Lett.77, 5369-5372(1996)
  57. Wie Strömungen turbulent werden, S.Großmann, in: Jahrbuch 1996 der Deutschen Akademie der Naturforscher Leopoldina, Herausgeber: Benno Parthier, Reihe 3, Bd.42, 263-277, Verlag: Deutsche Akademie der Naturforscher, Halle/Saale, 1997
  58. Improved variational principle for bounds on energy dissipation in turbulent shear flow, R.Nicodemus, S.Großmann, M.Holthaus, Physica D 101, 178-190 (1997)
  59. Reynolds number and scale dependence of turbulent eddy decorrelation, S.Großmann, C.Wiele, Z.Phys.B 103,469-477(1997)
  60. Application of extended self similarity in turbulence, S.Großmann, D.Lohse, A.Reeh, Phys.Rev.E 56, 5473-5478 (1997)
  61. Variational bounds on energy dissipation in turbulent shear flow, R.Nicodemus, S.Großmann, M.Holthaus, Phys.Rev.Lett 79 4170-4173 (1997)
  62. Different intermittency for longitudinal and transversal turbulent fluctuations, S.Großmann, D.Lohse, A.Reeh, Phys.Fluids 9, 3817-3825 (1997)
  63. Variational bounds on energy dissipation in plane Couette flow, R.Nicodemus, S.Großmann, M.Holthaus, Phys.Rev.E, 56, 6774-6786 (1997)
  64. Scaling of the irreducible SO(3)-invariants of velocity correlations in turbulence S.Großmann, D.Lohse, A.Reeh, J.Stat.Phys.93, 715-724 (1998)
  65. The background flow method, Part 1: Constructive approach to bounds on energy dissipation, R.Nicodemus, S.Großmann, M.Holthaus, J.Fluid Mech. 363, 281-300 (1998)
  66. The background flow method, Part 2: Asymptotic theory of dissipation bounds, R.Nicodemus, S.Großmann, M.Holthaus, J.Fluid Mech. 363, 301-320 (1998)
  67. Nonperturbative renormalization group approach for turbulence, A.Esser, S.Großmann, Eur.Phys.J. B7, 467-482, (1999) and chao-dyn/9801001
  68. Minimum description of pipe turbulence, U.Brosa, S.Großmann, Eur.Phys.J. B9, 343-354 (1999)
  69. Towards lowering dissipation bounds for turbulent flows, R.Nicodemus, S.Großmann, M.Holthaus, Eur.Phys.J. B10, 385-396 (1999)
  70. Continued fraction representation of temporal multiscaling in turbulence, D.Daems, S.Großmann, V.L'vov, I.Procaccia, Phys.Rev. E60, 6656-6662 (1999) and chao-dyn/9811024
  71. Multiscale correlations and conditional averages in numerical turbulence, S.Großmann, D.Lohse, A.Reeh, Phys.Rev. E61, 5195-5201 (2000)
  72. Scaling in thermal convection: A unifying theory, S.Großmann, D.Lohse, J.Fluid Mech. 407, 27-56 (2000)
  73. The onset of shear flow turbulence, S.Großmann, Rev.Mod.Phys. 72, 603-618 (2000)
  74. Turbulent fluid flow: onset - dissipation bounds - transport, S.Großmann, in: Proc. 4th School/Conference "Let's Face Chaos Through Nonlinear Dynamics" Maribor, Slovenia, 27.June - 11.July 1999 Eds. M.Robnik, et al. Progr.Theor.Phys.Suppl. 139, 90-95 (2000)
  75. Scaling of global momentum transport in Taylor-Couette and pipe flow, B.Eckhardt, S.Großmann, D.Lohse, Eur.Phys.J. B 18, 541-544 (2000)
  76. The phase diagram of Rayleigh-Benard turbulence, S.Großmann, D.Lohse, in "Advances in Turbulence VIII", International Center for Numerical Methods in Engineering (CIMNE), Editor C. Dopazo, Kluwer Academic Publishers, 2000, pp 921-924
  77. Turbulence onset despite stable laminarity of Hagen-Poiseuille pipe flow, S.Großmann, Complexity Digest 2000.33, August-28-2000, 1 (www.comdig.de)
  78. Scaling hypothesis leading to extended self-similarity in turbulence, H.Fujisaka, S.Großmann, Phys.Rev. E63, 026305 (2001)
  79. Thermal convection for large Prandtl numbers, S.Großmann, D.Lohse, Phys.Rev.Lett. 86, 3316-3319 (2001)
  80. Scaling exponents in weakly anisotropic turbulence from the Navier-Stokes equation, S.Großmann, Anna von der Heydt, Detlef Lohse, J. Fluid Mech. 440, 381-390 (2001)
  81. Auf verschlungenen Pfaden, Physikalische Blätter 57(5), 17-18 (2001)
  82. Hochpräzision im Kochtopf: Neues zur turbulenten Wärmekonvektion, Günter Ahlers, S.Großmann, Detlef Lohse, Physik Journal 1(2), 31-37 (2002)
  83. Hydrodynamic vector potentials, U.Brosa, S.Großmann, EPJ B 26, 121-132 (2002)
  84. Scaling hypothesis leading to generalized extended self-similarity in turbulence, Hirokazu Fujisaka, Yasuya Nakayama, Takeshi Watanabe, Siegfried Großmann, Phys.Rev. E 65, 046307 (2002)
  85. Prandtl and Rayleigh number dependence of the Reynolds number in turbulent thermal convection, Siegfried Großmann, Detlef Lohse, Phys.Rev. E 66, 016305, 1-6 (2002)
  86. Response maxima in modulated turbulence, A. von der Heydt, S. Großmann, D. Lohse, Phys.Rev. E 67, 046308, 1-12 (2003)
  87. On geometry effects in Rayleigh-Bénard convection , Siegfried Großmann, Detlef Lohse, J. Fluid Mech. 486, 105-114 (2003)
  88. The Spektrum of Turbulence, Siegfried Großmann, in: Time, Quantum and Information, Eds. Lutz Castell, Otfried Ischebeck, Springer, Berlin etc, 2003, pp 145-157 Festschrift für Carl Friedrich von Weizsaecker
  89. Turbulence, Siegfried Großmann, in: Advances in Solid State Physics 43, Ed. B. Kramer, Springer, Berlin etc. 2003, pp 19-34
  90. Response maxima in modulated turbulence, II, Numerical Simulations, A. von der Heydt, S. Großmann, D. Lohse, Phys.Rev. E 68, 066302 (2003)
  91. Hundert Jahre Grenzschichtphysik, mit Bruno Eckhardt und Detlef Lohse, Physik Journal 3(10), 31-37 (2004)
  92. Fluctuations in turbulent Rayleigh-Bénard convection: the role of plumes, mit Detlef Lohse, Physics of Fluids 16(12), 4462-4472 (2004)
  93. Wind reversals in turbulent Rayleigh-Bénard convection, mit Francisco Fontenele Araujo und Detlef Lohse, Phys. Rev. Lett. 95, 084502 (2005) (19. Aug.)
  94. Oscillations of the Large Scale Wind in Turbulent Thermal Convection, mit Christian Resagk, Ronald du Puits, André Thess, Felix V. Dolzhansky, Francisco Fontenele Araujo, and Detlef Lohse, Physics of Fluids 18, 095105 (2006)
  95. Energy and Dissipation Balances in Rotating Flows, mit  Bruno Eckhardt and Detlef Lohse, Springer Proceedings in Physics, Vol. SPP 101, Progress in Turbulence,   Eds. J. Peinke, A. Kittel, S. Barth, M. Oberlack, 2005, 47-50, ISBN 3-540-23216-8 Springer Berlin Heidelberg New York
  96. Wind reversals in turbulent Rayleigh-Bénard convection, mit Francisco Fontenele Araujo and Detlef Lohse, Phys. Rev. Lett. 95, 084502 (2005) (19 August)
  97. What Rayleigh-Bénard, Taylor-Couette, and Pipe flows have in common, mit Bruno Eckhardt and Detlef Lohse, Nonlinear Phenomena in Complex Systems 9(2), 109-114 (2006)
  98. Non-Oberbeck-Boussinesq effects in strongly turbulent Rayleigh-Bénard convection, mit Guenter Ahlers, Eric Brown, Francisco Fontenele Araujo, Denis Funfschilling, and Detlef Lohse, J. Fluid Mech. 569, 409-445 (2006)
  99. What Rayleigh-Bénard, Taylor-Couette, and Pipe flows have in common, mit Bruno Eckhardt and Detlef Lohse, (evening talk), iTi Conference on Turbulence, Bad Zwischenahn, 2005, Proceedings “Progress in Turbulence II”, Eds. Martin Oberlack, Georg Khujudze, Silke Günther, Tanja Weller, Michael Frewer, Joachim Peinke, Stephan Barth, Springer Proceedings in Physics 109, 3-10 (2007), Springer Verlag, Berlin, Heidelberg 2007,    ISBN 978-3-540-32602-1
  100. Non-Oberbeck-Boussinesq effects in gaseous Rayleigh-Bénard convection, mit Guenter Ahlers, Francisco Fontenele-Araujo, Denis Funfschilling, and Detlef Lohse,  Phys. Rev. Lett. 98, 054501 (2007)
  101. Torque scaling in turbulent Taylor-Couette flow between independently rotating cylinders, mit Bruno Eckhardt and Detlef Lohse, J. Fluid Mech. 581, 221-250 (2007)
  102. Fluxes and energy dissipation in thermal convection and shear flows, mit Bruno Eckhardt and Detlef Lohse, Europhysics Letters 78, 24001 (2007)
  103. Non-Oberbeck-Boussinesq effects in two-dimensional Rayleigh-Bénard convection in glycerol, mit K. Sugiyama, E. Calzavarini, and D. Lohse, Europhysics Letters 80, 34002 (2007)
  104. Torque scaling in Taylor-Couette flow, mit Bruno Eckhardt and Detlef Lohse, Advances in Turbulence XI, Springer Proceedings in Physics 117, pp. 352-354 of the 11th EUROMECH European Turbulence Conference, 25.-28. June 2007, Porto, Eds. J.M.L.M. Palma and A. Silva Lopes, Springer, Berlin etc. 2007, ISBN 978-3-540-72603-6
  105. Non-Oberbeck Boussinesq effects in turbulent Rayleigh-Bénard convection, mit F. Fontenele Araujo and  D. Lohse, Advances in Turbulence XI, Springer Proceedings in Physics 117, pp. 509-510, of the 11th EUROMECH European Turbulence Conference, 25.-28. June 2007, Porto, Eds. J.M.L.M. Palma and A. Silva Lopes, Springer, Berlin etc. 2007, ISBN 978-3-540-72603-6
  106. Global scaling properties of heat and momentum transport in fluid flow, mit Bruno Eckhardt and Detlef Lohse, IUTAM Symposium on Computational Physics and New Perspectives in Turbulence, Proceedings of the IUTAM Symposium on Computational Physics and New Perspectives in Turbulence, Nagoya University, Nagoya, Japan, September 11-14, 2006, Editor: Yukio Kaneda; Springer, Dordrecht 2008, pp. 11-18, 978-1-4020-6471-5 (book) or 978-1-4020-6472-2 (e-book)
  107. Non-Oberbeck-Boussinesq effects in turbulent thermal convection in ethane close to the critical point, mit Günter Ahlers, Enrico Calzavarini, Francisco Fontenele Araujo, Denis Funfschilling, Detlef Lohse, and Kazuyasu Sugiyama, Phys. Rev. E 77, 046302 (2008)
  108. Thermal convection in small Prandtl number liquids: strong but ineffective, mit Detlef Lohse, Proceedings of 7th International Summer School/Conference,         "Let's Face Chaos through Nonlinear Dynamics", CAMTP - Center for Applied Mathematics and Theoretical Physics, University of Maribor, Slovenia, 29 June - 13 July 2008, American Institute of Physics (AIP) Conference Proceedings Series, No. 1076, Eds. Marko Robnik and Valery G. Romanowski, December 2008, pp. 68 – 75, ISBN 978-0-7354-0607-0 und ISSN 0094-243X,    AIP Publisher, Melville, New York
  109. Heat Transfer and Large-Scale Dynamics in Turbulent Rayleigh-Bénard Convection, mit Guenter Ahlers und Detlef Lohse, Review of Modern Physics 81(2), 503-527 (2009)
  110. Flow organization in non-Oberbeck-Boussinesq Rayleigh-Bénard convection in water, mit Kazuyasu Sugiyama, Enrico Calzavarini, and Detlef Lohse, J. Fluid Mech. 637, 105-135 (2009)
  111. Various flow amplitudes in 2D non-Oberbeck-Boussinesq Rayleigh-Bénard convection in water, mit Enrico Calzavarini, Detlef Lohse, and Kazuyasu Sugiyama,       Proceedings of ETC12, held in Marburg 7.-10. September 2009, Ed. Bruno Eckhardt, Advances in Turbulence XII, Springer Proceedings in Physics (SPP) 132, Springer-Verlag, Berlin, Heidelberg, 2009, Online only, DOI 10.1007/978-3-642-03085-7_114, S. 479-482 (PDF-file-pages 507-510),  ISBN 978-3-642-03084-0, e-ISBN 978-3-642-03084-7
  112. Flow reversals in thermally driven turbulence, mit Kazuyasu Sugiyama, Rui Ni, Richard Stevens, Tak Shing Chan, Sheng-Qi Zhou, Heng-Dong Xi, Chao Sun, Ke Qing Xia, and Detlef Lohse, Phys. Rev. Lett. 105, 034503 (2010)
  113. Boundary layer structure in turbulent thermal convection and its consequences for the required numerical resolution, mit Olga Shishkina, Richard J. A. M. Stevens, and Detlef Lohse, New Journal of Physics (NJP or New J. Phys.) 12, 075022 (2010)
  114. Prandtl-Blasius temperature and velocity boundary layer profiles in turbulent Rayleigh-Bénard convection, mit Quan Zhou, Richard J. A. M. Stevens, Kazuyasu Sugiyama, Detlef Lohse, and Ke-Qing Xia, J. Fluid Mech. 664, 297-312 (2010)
  115. Multiple scaling in the ultimate regime of thermal convection, mit Detlef Lohse, Physics of Fluids 23, 045108 (2011)
  116. Horizontal Dependence of Velocity and Temperature Boundary-Layers in two-dimensional Numerical Turbulent Rayleigh-Bénard Convection, mit Quan Zhou, Kazuyasu Sugiyama, Richard J. A. M. Stevens, Detlef Lohse, und Ke-Qing Xia, Physics of Fluids 23, 125104 (2011)
  117. Ultimate Turbulent Taylor-Couette Flow, mit Sander G. Huisman, Dennis P.M. van Gils, SGn, Chao Sun, und Detlef Lohse, Physical Review Letters 108, 024501 (2012) (13 January)
  118. Thermal boundary layer profiles in turbulent Rayleigh-Bénard convection in a cylindrical sample, mit Richard J.A.M. Stevens, Quan Zhou, SGn, Roberto Verzicco, Ke-Qing Xia, und Detlef Lohse, Physical Review E 85(2), 027301, 2012
  119. Optimal Taylor-Couette turbulence, mit Dennis P. M. Van Gils, Sander G. Huisman, SGn, Chao Sun, und Detlef Lohse, Journal of Fluid Mechanics 706,118-149 (2012)
  120. Logarithmic Temperature Profiles in Turbulent Rayleigh-Bénard Convection, mit Guenter Ahlers, Eberhard Bodenschatz, Denis Funfschilling, Xiaozhou He, Detlef Lohse,  Richard J. A. M. Stevens, and Roberto Verzicco, Physical Review Letters 109, 114501 (2012)
  121. Spatial distribution of heat flux and fluctuations in turbulent Rayleigh-Bénard convection, Rajaram Lakkaraju, Richard J. A. M. Stevens, Roberto Verzicco, Siegfried Grossmann, Andrea Prosperetti, Chao Sun, and Detlef Lohse, Physical Review E 86, 056315 (2012)
  122. Logarithmic temperature profiles in the ultimate range of thermal convection, mit Detlef Lohse, Physics of Fluids 24, 125103 (2012)
  123. Optimal Taylor-Couette flow: direct numerical simulations, mit Rodolfo Ostilla, Richard J. A. M. Stevens, Roberto Verzicco und Detlef Lohse, Journal of Fluid Dynamics 719, 14-46 (2013)
  124. The unifying theory of scaling in thermal convection: the updated prefactors, mit Richard J. A. M. Stevens, Erwin P. van der Poel, Siegfried Grossmann, und Detlef Lohse, Journal of Fluid Dynamics 730, 295-308 (2013)
  125. Flow Organization in Highly Turbulent Thermal Convection, in A. Pelster and G. Wunner (Editors): Selforganization in Complex Systems:The Past, Present, and Future of Synergetics, Proceedings of the International Symposium, Hanse Institute of Advanced Studies, Delmenhorst, 13-16 November, 2012 (Springer, Berlin, 2016)
  126. Boundary layer dynamics at the transition between the classical and the ultimate regime of Taylor-Couette flow, mit Rodolfo Ostilla-Mónico, Erwin P. van der Poel, Roberto Verzicco, und Detlef Lohse, Physics of Fluids 26, 015114 (2014)
  127. Velocity profiles in strongly turbulent Taylor-Couette flow, mit Detlef Lohse and Chao Sun, Physics of Fluids 26, 025114 (2014), doi: 10.1063/1.4865818
  128. Optimal Taylor-Couette flow: radius-ratio dependence, mit Rodolfo Ostilla-Mónico, Sander G. Huisman, Tim J. G. Jannink, Dennis P. M. Van Gils, Roberto Verzicco, Siegfried Grossmann, Chao Sun, and Detlef Lohse, Journal of Fluid Mechanics 747 (2014) 1-29
  129. Plume Emission Statistics, Erwin van der Poel, Roberto Verzicco, SGn, Detlef Lohse, Journal of Fluid Mechanics 772 (2015) 5-15
  130. Turbulence decay towards the linearly stable regime of Taylor-Couette flow, mit Rodolfo Ostilla Monico, Roberto Verzicco, and Detlef Lohse, Journal of Fluid Mechanics (Rapids) 748 (2014) R3, 1-11
  131. Exploring the phase diagram of fully developed Taylor-Couette flow, mit Rodolfo Ostilla-Mónico, Erwin P. van der Poel, Roberto Verzicco, Siegfried Grossmann, and Detlef Lohse, Journal of Fluid Mechanics 761 (2014) 1-26
  132. Salinity Transfer in bounded double diffusive convection, mit Yantao Yang, Erwin van der Poel, Rodolfo Ostilla-Monico, Chao Sun, Roberto Verzicco, Siegfried Großmann, Detlef Lohse, Journal of Fluid Mechanics 768 (2015) 476-491
  133. High-Reynolds Number Taylor-Couette Turbulence, von Siegfried Grossmann, Detlef Lohse und Chao Sun, Ann. Rev. Fluid Mech. 48, 53-80 (2016)
  134. Heat and momentum transport scaling in horizontal convection, von Olga Shishkina, Siegfried Grossmann, and Detlef Lohse, (2016) Geophys.(ical) Res.(earch) Lett.(ers) 43, 1219 – 1225, doi 10.1002/2015GL067003
  135. Logarithmic Mean Temperature Profiles and Their Connection to Plume Emissions in Turbulent Rayleigh-Bénard Convection, von Erwin van der Poel, Rodolfo Ostilla- Monico, Roberto Verzicco, Siegfried Grossmann, and Detlef Lohse, Phys. Rev. Letters 115, 154501 (2015)
  136. The near-wall region of highly turbulent Taylor-Couette flow, von Rodolfo Ostilla-Monico, Roberto Verzicco, Siegfried Grossmann, and Detlef Lohse, Journal of Fluid Mechanics 788, 95-117 (2016)
  137. Curvature effects on the velocity profile in turbulent pipe flow, von Siegfried Grossmann and Detlef Lohse,  European Physical Journal E 40, 16 [insgesamt 10 Seiten] (2017), DOI 10.1140/epje/i2017-11504-x  [EPJE = Soft Matter and Biological Physics]
  138. Scaling relations in large-Prandtl-number natural thermal convection, von Olga Shishkina, Mohammad S. Emran, Siegfried Grossmann, and Detlef Lohse, Physical Review Fluids 2, 103502 (2017), pp. 1-9

Phase Transitions

  1. Temperature Dependence near Phase Transitions in Classical and Quantum Mechanical Canonical Statistics, S.Großmann, W.Rosenhauer, Z.Phys. 207, 138-152 (1967)
  2. Phase Transitions and Distribution of Zeros in the Complex Temperature Plane, S.Großmann, Phys.Lett. 28 A, 162-163 (1968)
  3. Phase Transitions and Zeros in Several Physical Variables, W.Bestgen, S.Großmann, W.Rosenhauer, Phys.Lett. 28 A, 117-118 (1968)
  4. Phase Transitions and the Distribution of Temperature Zeros of the Partition Function, I: General Relations, S.Großmann, W.Rosenhauer, Z.Phys. 218, 437-448 (1969)
  5. Phase Transitions and the Distribution of Temperature Zeros of the Partition Function, II: Applications and Examples, S.Großmann, V.Lehmann, Z.Phys. 218, 449-459 (1969)
  6. Phase Transitions and Distribution of Zeros, W.Bestgen, S.Großmann, W.Rosenhauer, J.Phys.Soc.Jap. 26, Suppl. 115-117 (1969)
  7. Analytic Properties of Thermodynamic Functions and Phase Transitions, S.Großmann, in "Festkörperprobleme IX", Ed. O.Madelung, Vieweg: Braunschweig, 1969, 207-254
  8. Transport Effects of Higher Order in the Critical Region of Simple Fluids, S.Großmann, Phys.Lett. 30 A, 374-376 (1969)
  9. Specific Heat Singularities in Superconductors near Tc, S.Großmann, P.H.Richter, Phys.Lett. 33 A, 39-40 (1970)
  10. Phase Transition of First Order in Superconductors at Hc, S.Großmann, Ch.Wissel, Z.Phys. 252, 74-83 (1972)
  11. Self Consistent Theory of Fluctuations Near D-Dimensional Superconducting Phase Transitions, S.Großmann, P.H.Richter, Ch.Wissel, Solid Stat.Comm. 11, 433-436 (1972)
  12. Fluctuations near Phase Transitions in Restricted Geometries, in "Synergetics, Cooperative Phenomena in Multi-Component Systems", S.Großmann, Ed. H.Haken, Teubner: Stuttgart, 1973, 54-70
  13. Dynamical Correlations Near Instabilities in Nonlinear Chemical Reaction Systems, S.Großmann, R.Schranner, Z.Phys. B 30, 325-337 (1978)
  14. Dynamical Correlation Functions in the Brusselator, S.Großmann, P.H.Richter, R.Schranner, Z.Phys. B 35, 363-381 (1979)
  15. Fluctuation Dynamics Near Chemical Instabilities, in "Stochastic Nonlinear Systems in Physics, Chemistry and Biology", S.Großmann, Eds. L.Arnold, R.Lefever, Synergetics Series, Springer: Berlin, New York, etc. 1981, 213-222
  16. Fluctuation Dynamics Near Chemical Instabilities, in "Synergetika", in Russian, S.Großmann, Ed. Academician B.B.Kadomtzeva, Verlag MIR: Moskau, 1984, 126- 138
  17. Sweeping through the critical region, S.Großmann, A.S.Mikhailov, Z.Phys.B. 78, 1-10 (1989)


Laserphysics

  1. Higher Order Phase Transition Theory of the Laser Threshold, mit Peter H. Richter, Conference on Statistical Mechanics, IUPAP, University of Chicago, March 29th - April 2nd 1971, Eds. Karl. F. Freed, John C. Light, Stuart A. Rice, William M. Gelbart, Program and Abstract of Contributed Papers, pages III 60 - III 65 (keine ISBN)
  2. Laser Threshold and Nonlinear Landau Fluctuation Theory of Phase Transitions, S.Großmann, P.H.Richter, Z.Phys. 242, 458-475 (1971)
  3. Fluctuation Theory of Detuned Single Mode Laser, S.Großmann, P.H.Richter, Z.Phys. 248, 244-253 (1971)
  4. Intensity, Correlations, and Linewidths of Two Mode Lasers with Intensity Coupling Near Threshold, S.Großmann, P.H.Richter, Z.Phys. 249, 43-57 (1971)
  5. Spectral Linewidths of Two Mode Lasers, S.Großmann, P.H.Richter, Z.Phys. 255, 59-75 (1972)
  6. Intensities and Correlations in Two Mode Lasers Near Threshold, S.Großmann, H.Kümmel and P.H.Richter, Appl.Phys. 1, 257-261 (1973)
  7. Memory Effects and Mode Coupling Near the Laser Threshold, S.Großmann, Ann. of the Israel Phys.Soc. 2, 1977
  8. Memory effects in the line width and line shape near the laser threshold, S.Großmann, Phys.Rev. A 17, 1123-1132 (1978)
  9. External Noise Effects on the Fluctuation Line Width, H.Fujisaka, S.Großmann, Z.Phys. B 43, 69-75 (1981)
  10. Laser with large photon correlation times, S.Großmann, W.Krauth, Phys.Rev. A 35, 2523-2531 (1987) Erratum: Phys.Rev. A38, 3796 (1988)
  11. Linewidth of lasers with broken polarization symmetry, S.Großmann, W.Krauth, Phys.Rev. A 35, 4192-4199 (1987)
  12. The Polarization Symmetric Laser, S.Großmann, W.Krauth, in "Lasers and Synergetics", Eds. R.Graham, A.Wunderlin, Springer Proc.Phys.19, Springer: Berlin, Heidelberg, New York, 1987, 90-98
  13. Polarization Dynamics of a Monochromatic Laser with Linear Phase Anisotropy, S.Großmann, D.Yao, Z.Phys.B.80, 439-445 (1990)
  14. A laser limit cycle - an analytical study, S.Großmann, D.Yao, Z.Naturforsch. 45a, 903-910 (1990)

Nuclear Fission

  1. Shell Effects in the Mass Transport During Heavy Ion Collisions, S.Großmann, Z.Phys. A 296, 251-262 (1980)
  2. Inertia Effects in the Mass Transport of Heavy Ion Reactions, S.Großmann, H.J.Krappe, Z.Phys. A 298, 41-53 (1980)
  3. Mass Distribution in Heavy Ion Collisions: Shell Effects, Neck Formation, U.Brosa, S.Großmann, in "Heavy Ions and Nuclear Structure", Eds. B.Sikora, Z.Wilhelmi, Harwood Academic Publishers, London, New York, etc., 1984, 121-156
  4. In the Exit Channel of Nuclear Fission, U.Brosa, S.Großmann, Z.Phys. A 310, 177-187 (1983)
    Neck Particles from Heavy Ion Collisions, U.Brosa, S.Großmann, XI. Int. Workshop on Gross Properties of Nuclei and Nuclear Excitations, Hirschegg, Ed.H.Feldmeier, TH Darmstadt, (ISSN 0720-8715) 1983
  5. Droplet Fission: A Performance of Surface Tension, U.Brosa, S.Großmann, Phys. Lett. 126 B, 425-427 (1983)
  6. Random neck rupture in nuclear reactions, U.Brosa, S.Großmann, J.Phys. G: Nucl.Phys. 10, 933-954 (1984)
  7. Instabilities and Decay Rates of Charged Viscous Liquid Jets, S.Großmann, A.Müller, Z.Phys. B 57, 161-173 (1984)
  8. Ar + Mo. Giant fluctuations but small drift, U.Brosa, S.Großmann, Z.Phys. A 319, 327-335 (1984)
  9. Surface Excitations of a Compressible Cylindrical Liquid, S.Großmann, A.Müller, Z.Naturforsch. 40a, 968-975 (1985)
  10. On Rayleigh's criterion for the neck stability in heavy-ion reactions and fission, S.Großmann, H.Krappe, Phys.Rev. C 34, 914-916 (1986)
  11. Fission Channels in 258Fm, U.Brosa, S.Großmann, A.Müller, Z.Phys. A 325, 241-242 (1986)
  12. Four Channels in the Fission of 252Cf U.Brosa, S.Großmann, A.Müller, Z.Naturforsch. 41a, 1341-1346 (1986)
  13. Fission Channels of the Actinides, U.Brosa, S.Großmann, A.Müller in GSI-Nachrichten, Nr.8, 1987, 13-17 (siehe auch 15 und 16) sowie                                              14'. TKE
  14. Fluctuations in Fission Fragments, mit Andreas Müller und Ulrich Brosa, GSI Scientific Report 1987, March 1988, ISSN 0174-0814, page 1.3.1                      und Meanvalues
  15. Energy Fluctuations in Multichannel Fission and Heavy Ion Collisions, U.Brosa, S.Großmann, A.Müller, Nucl.Phys. A481, 340-354 (1988)
  16. Nuclear Scission U.Brosa, S.Großmann, A.Müller, E.Becker Nuclear Physics A 502, 423c - 442c (1989)
  17. Nuclear Scission, U.Brosa, S.Großmann, A.Müller, Physics Reports 197, 167-262 (1990)