Publication - Guenter Ahlers Group
Publication - Guenter Ahlers Group
Publication - Guenter Ahlers Group
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<strong>Publication</strong> List of <strong>Guenter</strong> <strong>Ahlers</strong><br />
July 11, 2012<br />
1. Molecular Orbital Calculations for Cycloöctatetraene, <strong>Guenter</strong> <strong>Ahlers</strong> and James F.<br />
Hornig, J. Phys. Chem. 65, 2102 (1961).<br />
2. On the Ortho-Para Conversion in Solid Hydrogen, <strong>Guenter</strong> <strong>Ahlers</strong>, J. Chem. Phys.<br />
40, 3123 (1964).<br />
3. λ Anomaly in the Heat Capacity of Solid Hydrogen at Small Molar Volumes, G. <strong>Ahlers</strong><br />
and W.H. Orttung, Phys. Rev. A 133, 1642 (1964).<br />
4. Properties of He 4 Near the γ Phase, <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. A 135, 10 (1964).<br />
5. Lattice Heat Capacity of Solid Hydrogen, <strong>Guenter</strong> <strong>Ahlers</strong>, J. Chem. Phys. 41, 86<br />
(1964).<br />
6. Heat Capacity of the γ Phase of He 4 , <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 10, 439<br />
(1963).<br />
7. Heat Capacity of Copper, <strong>Guenter</strong> <strong>Ahlers</strong>, Rev. Sci. Instrum., 37, 477 1966.<br />
8. Temperature-Resistance Relation for Germanium Thermometers, <strong>Guenter</strong> <strong>Ahlers</strong> and<br />
Joseph F. Macre, Rev. Sci. Instrum., 37, 962 1966.<br />
9. Heat Capacity of Beryllium Below 30 ◦ K, <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev., 145, 419 1966.<br />
10. The Heat Capacity of Silver Below 26 ◦ K, <strong>Guenter</strong> <strong>Ahlers</strong>, J. Phys. Chem. Solids, 28,<br />
404 1966.<br />
11. Absence of a Linear Term in the Heat Capacity of hcp He 4 , G. <strong>Ahlers</strong>, Phys. Lett.<br />
22, 404 1966.<br />
12. Volume and Temperature Dependence of the Grüneisen Parameter of hcp 4 He, G.<br />
<strong>Ahlers</strong>, Phys. Lett. 24A, 152 1967.<br />
13. Order of the He 4 II-He 4 I Transition under Rotation, <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev., 164,<br />
259 1967.<br />
14. Effect of the Gravitational Field on the Superfluid Transition in He 4 , <strong>Guenter</strong> <strong>Ahlers</strong>,<br />
Phys. Rev., 171, 275 1968.<br />
15. Thermal Conductivity of He I Near the Superfluid Transition, <strong>Guenter</strong> <strong>Ahlers</strong>, Phys.<br />
1
Rev. Lett. 21, 1159 1968.<br />
16. Second Sound Velocity in He II. Thermal Conductivity in He I, and Scaling Laws<br />
Near The Superfluid Transition, G. <strong>Ahlers</strong>, Phys. Lett. 28A, 507 1969.<br />
17. Thermal Conductivity of He I Near Tλ, <strong>Guenter</strong> <strong>Ahlers</strong>, Proceedings of the 11th<br />
International Conference on Low Temperature Physics, LT-11, 203 (1968).<br />
18. Mutual Friction in He II Near the Superfluid Transition, <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev.<br />
Lett. 22, 54 1969.<br />
19. Critical Heat Flow in a Thick He II Film Near The Superfluid Transition , <strong>Guenter</strong><br />
<strong>Ahlers</strong>, J. Low Temp. Phys. 1, 159 1969.<br />
20. Thermodynamics of the Isentropic Sound Velocity Near the Superfluid Transition,<br />
<strong>Guenter</strong> <strong>Ahlers</strong> Phys. Rev., 182, 352 1969.<br />
21. On the Attenuation and Dispersion of First Sound Near the Superfluid Transition in<br />
He 4 , <strong>Guenter</strong> <strong>Ahlers</strong>, J. Low Temp. Phys. 1, 609 1969.<br />
22. Heat Capacity at Constant Pressure Near the Superfluid Transition in He 4 , <strong>Guenter</strong><br />
<strong>Ahlers</strong>, Phys. Rev. Lett. 23, 464 1969.<br />
23. Experimental Test of Scaling Laws Near the Superfluid Transition in He 4 Under Pres-<br />
sure, G. <strong>Ahlers</strong>, Proceedings of the Twelfth International Conference on Low Temperature<br />
Physics, ed. Eizo Kanda, (Keigaku Publ. Tokyo, Japan, 1970), p. 21.<br />
24. Thermal Conductivity of a He 3 -He 4 Mixture Near the Superfluid Transition, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, Phys. Rev. Lett. 24, 1333 1970.<br />
25. Thermodynamic Properties of hcp He 4 , <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev., 2, 1505 1970.<br />
26. Heat Capacity Near the Superfluid Transition in He 4 at Saturated Vapor Pressure,<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. A 3, 696 1971.<br />
27. On the Depressionof the Superfluid Transition Temperature in 4 He by a Heat Current,<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, Alan Evenson and Avinoam Kornblit, Phys. Rev. A 4, 804 1971.<br />
28. On the Viscosity of 4 He Near the Superfluid Transition, G. <strong>Ahlers</strong>, Phys. Lett. 37A,<br />
151 1971.<br />
29. Ion Mobilities in 4 He Near the Superfluid Transition and the Melting Line, G. <strong>Ahlers</strong><br />
and G. Gamota, Phys. Lett. 38A, 65 1972.<br />
2
30. Temperature Derivative of the Pressure of 4 He at the Superfluid Transition, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, J. Low Temp. Phys. 7, 361 1972.<br />
31. Second-Sound Velocity, Scaling, and Universality in He II Under Pressure Near the<br />
Superfluid Transition, Dennis S. Greywall and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 28, 1251<br />
1972.<br />
32. Introduction to Phase Transitions and Critical Phenomena by H. Eugene Stanley,<br />
Physics Today Jan. 1971, p. 71<br />
33. On the Heat Capacity at Constant Volume Near the Superfluid Transition, G. <strong>Ahlers</strong>,<br />
Phys. Rev. Lett. 39A, 335 1972.<br />
34. Second-Sound Velocity and Superfluid Density Near the Tricritical Point in He 3 -He 4<br />
Mixtures, <strong>Guenter</strong> <strong>Ahlers</strong> and Dennis S. Greywall, Phys. Rev. Lett. 29, 849 1972<br />
35. Second-Sound Velocity and Superfluid Density in He 4 Under Pressure and Near Tλ<br />
D.S. Greywall and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. A 7, 2145 1973.<br />
36. Second-Sound Velocity, Gravity Effect, Relaxation Times, and Superfluid Density<br />
Near the Tricritical Point in He 3 -He 4 Mixtures, <strong>Guenter</strong> <strong>Ahlers</strong> and Dennis S. Greywall,<br />
Proceedings of the 13th International Conference on Low Temperature Physics, Ed. by K.<br />
D. Timmerhaus, W. J. O’Sullivan, E.F. Hammel, (Plenum, NY, 1973), p. 586.<br />
37. Thermodynamics and Experimental Tests of Static Scaling and Universality Near the<br />
Superfluid Transition in He 4 under Pressure, <strong>Guenter</strong> <strong>Ahlers</strong> Phys. Rev. A 8, 530 1973.<br />
38. Second-Sound Velocity and Superfluid Density in He 4 Under Pressure Near Tλ, D.S.<br />
Greywall and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. A 7, 2145 1973.<br />
39. Heat Capacity of RbMnF3 and EuO Near the Magnetic Phase Transitions, A. Korn-<br />
blit, G. <strong>Ahlers</strong> and E. Buehler, Phys. Lett. 43, 531 1973.<br />
40. Heat Capacity of RbMnF3 Near the Antiferromagnetic Transition Temperature, Avi-<br />
noam Kornblit and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. B 8, 5163 1973.<br />
41. The Superfluid Fraction Near Tλ in Dilute Solutions of 3 He in 4 He, G. <strong>Ahlers</strong>, Phys.<br />
Lett. 46A, 89 1973.<br />
42. Mass Diffusivity of 3 He- 4 He Mixtures Near the Superfluid Transition, <strong>Guenter</strong> <strong>Ahlers</strong><br />
and Frank Pobell, Phys. Rev. Lett. 32, 144 1974.<br />
3
43. Heat Capacity of FeF2 Near the Antiferromagnetic Transition, <strong>Guenter</strong> <strong>Ahlers</strong>, Avi-<br />
noam Kornblit, and Myron B. Salamon, Phys. Rev. B 9, 3932 1974.<br />
44. Thermal Expansion Coefficient of Pressurized Liquid Helium Near the Superfluid<br />
Transition , K.H. Mueller, F. Pobell, and G. <strong>Ahlers</strong>, Proceedings of Europhysics Topical<br />
Conference on Liquid and Solid Helium Haifa, Israel, 1974<br />
45. Second-Sound Velocity, Superfluid Density and Universality Near the Superfluid Tran-<br />
sition in 3 He- 4 He Mixtures, <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. A 10, 1670 1974.<br />
46. Low Temperature Studies of the Rayleigh-Bénard Instability and Turbulence, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, Phys. Rev. Lett. 33, 1185 1974.<br />
47. Heat Capacity of EuO Near the Curie Temperature, Avinoam Kornblit and <strong>Guenter</strong><br />
<strong>Ahlers</strong>, Phys. Rev. B 11, 2678 1975.<br />
48. Thermal Expansion Coefficient and Universality Near the Superfluid Transition of<br />
He 4 Under Pressure K.H. Müller, <strong>Guenter</strong> <strong>Ahlers</strong>, and F. Pobell Phys. Rev. Lett. 34, 513<br />
1975.<br />
49. Logarithmic Corrections to the Landau Specific Heat Near the Curie Temperature<br />
of the Dipolar Ising Ferromagnet LiTbF4, <strong>Guenter</strong> <strong>Ahlers</strong>, Avinoam Kornblit, and H.J.<br />
Guggenheim, Phys. Rev. Lett. 34, 1227 1975.<br />
50. Universality of the Specific Heat of Heisenberg Magnets Near Their Critical Temper-<br />
atures, <strong>Guenter</strong> <strong>Ahlers</strong> and Avinoam Kornblit, Phys. Rev. B 12, 1938 1975.<br />
51. Logarithmic Corrections to the Landau Specific Heat Near the Curie Temperature<br />
of the Dipolar Ising Ferromagnet LiTbF4, <strong>Guenter</strong> <strong>Ahlers</strong>, Avinoam Kornblit and H. J.<br />
Guggenheim, Proceedingsofthe14thInternationalConferenceonLowTemperaturePhysics,<br />
3, 176 (1975).<br />
52. The Rayleigh-Bénard Instability at Helium Temperatures, <strong>Guenter</strong> <strong>Ahlers</strong>, in Fluctu-<br />
ations, Instabilities and Phase Transitions, Ed. by T. Riste, (Plenum, NY 1975), p. 181.<br />
53. Thermal Expansion Coefficient, Scaling, and Universality Near Transition of 4 He<br />
Under Pressure, K.H. Müller, <strong>Guenter</strong> <strong>Ahlers</strong>, and F. Pobell, Phys. Rev. B 14, 2096 1976.<br />
54. Experiments Near the Superfluid Transition in 4 He and 3 He- 4 He Mixtures, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, in The Physics of Liquid and and Solid Helium, Part I., editors, K.H. Bennemann<br />
4
and J.B. Ketterson, (Wiley, NY, 1976), p. 85.<br />
55. Heat Capacity of EuS Near the Ferromagnetic Transition,AvinoamKornblit, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, and E. Buehler, Phys. Rev. B 17, 282 1978.<br />
56. Thermal Conductivity of 4 He Vapor as a Function of Density, <strong>Guenter</strong> <strong>Ahlers</strong>, J.<br />
Low Temp. Phys. 31, 429 1978<br />
57. Heat Transport and Critical Slowing Down Near the Rayleigh-Bénard Instability in<br />
Cylindrical Containers, R.P. Behringer and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Lett. 62A, 329 1977<br />
58. Evolution of Turbulence from the Rayleigh-Bénard Instability, <strong>Guenter</strong> <strong>Ahlers</strong> and<br />
R.P. Behringer, Phys. Rev. Lett. 40, 712 1978.<br />
59. Critical Phenomena and the Superfluid Transition in 4 He, <strong>Guenter</strong> <strong>Ahlers</strong>, in Quan-<br />
tum Liquids, Ed. J. Ruvalds and T. Regge, (North-Holland, NY, 1978), p. 1.<br />
60. The Rayleigh-Bénard Instability and the Evolution of Turbulence, <strong>Guenter</strong> <strong>Ahlers</strong> and<br />
R.P. Behringer, Suppl. Progress in Theor. Phys., 61, 186 1978.<br />
61. Critical Phenomena at Low Temperatures,<strong>Guenter</strong> <strong>Ahlers</strong>TenthFritzLondonMemo-<br />
rial Award Lecture. Rev. Mod. Phys., 52, 489 1980.<br />
62. Effect of Departures from the Oberbeck Boussinesq Approximation on the Heat Trans-<br />
port of Horizontal Convecting Fluid Layers, <strong>Guenter</strong> <strong>Ahlers</strong> J. Fluid Mech. 98, 137 1980.<br />
63. Second-Sound Damping Near the Superfluid Transition in 4 He, <strong>Guenter</strong> <strong>Ahlers</strong> Phys.<br />
Rev. Lett. 43, 1417 1979.<br />
64. Universal Ratios among Correction to Scaling Amplitudes and Effective Critical Ex-<br />
ponents, Amnon Aharony and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 44, 782 1980.<br />
65. Turbulence Near Onset of Convection, <strong>Guenter</strong> <strong>Ahlers</strong> and R.W. Walden, Phys. Rev.<br />
Lett. 44, 445 1980.<br />
66. Non-Boussinesq and Penetrative Convection in a Cylindrical Container, R.W.<br />
Walden and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Fluid Mech. 109, 89 1981.<br />
67. The Amplitude Equation Near the Convective Threshold: Application to Time-<br />
DependentHeating Experiments,<strong>Guenter</strong><strong>Ahlers</strong>, M.C.Cross, P.C.HohenbergandS.Safran,<br />
J. Fluid Mech. 110, 297 1981.<br />
68. Onset of Convection and Turbulence in a Cylindrical Container, in Systems Far From<br />
5
Equilibrium, ed. L. Garrido and J. Garcia, (Springer, NY, 1980).<br />
69. Critical Thermal Conductivity of 4 He for T ≥ Tλ, <strong>Guenter</strong> <strong>Ahlers</strong>, P.C. Hohenberg<br />
and A. Kornblit, Phys. Rev. Lett. 46, 493 1981.<br />
70. A simple Stochastic Model for the Onset of Turbulence in Rayleigh-Bénard Con-<br />
vection, H.S. Greenside, G. <strong>Ahlers</strong>, P.C. Hohenberg, and R.W. Walden, Physica, 5D, 322<br />
1982.<br />
71. Non-linear Renormalization <strong>Group</strong> Analysis of the Thermal Conductivity of 4 He for<br />
T ≥ Tλ, <strong>Guenter</strong> <strong>Ahlers</strong>, P.C. Hohenberg, and A. Kornblit, Phys. Rev. B 25, 3136 1982.<br />
72. Fourth Sound Velocity and Two-Scale Factor Universality in 4 He Near Tλ, <strong>Guenter</strong><br />
<strong>Ahlers</strong> and W.Y. Tam, Physica, 107B, 345 1981.<br />
73. The Exponent of the Superfluid Density of 4 He Near Tλ, <strong>Guenter</strong> <strong>Ahlers</strong>, Physica,<br />
107B, 347 1981.<br />
74. Static and Dynamic Critical Phenomena Near the Superfluid Transition in 4 He in<br />
Phase Transitions: Cargese 1980, Ed. M. Levy, J.C. LeGuillouand J. Zinn-Justin, (Plenum,<br />
NY, 1981), p. 1.<br />
75. Heat Transport and Temporal Evolution of Fluid Flow Near the Rayleigh-Bénard<br />
Instability in Cylindrical Containers, R.P. Behringer and G. <strong>Ahlers</strong>, J. Fluid Mech. 125, 219<br />
1982.<br />
76. Fractional Mode Numbers in Wavy Taylor Vortex Flow, <strong>Guenter</strong> <strong>Ahlers</strong>, David S.<br />
Cannell and M.A. Dominguez-Lerma, Phys. Rev. Lett. 49, 368 1982.<br />
77. Possible Mechanism for Transitions in Taylor-Vortex Flow, <strong>Guenter</strong> <strong>Ahlers</strong>, David<br />
S. Cannell and M.A. Dominguez-Lerma, Phys. Rev. A 27, 1225 1983.<br />
78. Pressure Dependence of Size Effects in Superfluid 4 He, W.Y. Tam and <strong>Guenter</strong><br />
<strong>Ahlers</strong>, Phys. Lett. 92A, 445 1982.<br />
79. Experiments on Wave Number Selection in Rotating Couette-Taylor Flow, David S.<br />
Cannell, M.A. Dominguez-Lerma, and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 50, 1365 1983.<br />
80. Vortex-Front Propagation in Rotating Couette-Taylor Flow, <strong>Guenter</strong> <strong>Ahlers</strong> and<br />
David S. Cannell, Phys. Rev. Lett. 50, 1583 1983.<br />
81. Nanokelvin Thermometry at Temperatures Near 2 K, V. Steinberg and <strong>Guenter</strong><br />
6
<strong>Ahlers</strong>, J. Low Temp. Phys. 53, 255 1983.<br />
82. Damping of Second Sound Near the Superfluid Transition of 4 He Under Pressure, R.<br />
Mehrotra and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 51, 2116 1983.<br />
83. Background Terms for Second Sound Damping Near Tλ, G. <strong>Ahlers</strong> and P.C. Hohen-<br />
berg, Phys. Rev. Lett. 52, 313 1984.<br />
84. Wavenumber Selection in Rotating Couette-Taylor Flow, <strong>Guenter</strong> <strong>Ahlers</strong> and D.S.<br />
Cannell, in Synergetics-From Microscopic to Macroscopic Order, Ed. E. Frehland and H.<br />
Haken, (Springer, NY, 1983.)<br />
85. Externally Modulated Rayleigh-Bénard Convection: Experiment and Theory, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, P.C. Hohenberg, and M. Lücke, Phys. Rev. Lett. 53, 48 1984.<br />
86. The Entropy of He II from 1.6 K to the λ Line, A. Singsaas and <strong>Guenter</strong> <strong>Ahlers</strong>,<br />
Phys. Rev. B 29, 4951 1984.<br />
87. Marginal Stability Curve and Linear Growth Rate for Rotating Couette-Taylor Flow<br />
and Rayleigh-Bénard Convection, M.A. Dominguez-Lerma, <strong>Guenter</strong> <strong>Ahlers</strong>, and D.S. Can-<br />
nell Phys. Fluids 27, 856 1984.<br />
88. Thermal Convection Under External Modulation of the Driving: I. The Lorenz Model,<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, P.C. Hohenberg and M. Lücke, Phys. Rev. Lett. 32, 3493 1985.<br />
89. Second-Sound Damping Near the λ-Line of 4 He, R. Mehrotra and <strong>Guenter</strong> <strong>Ahlers</strong>,<br />
LT-17Karlsruhe, W.Germany, August15-221984, Ed. byU.Eckern, A.Schmid, W.Weber,<br />
H.W. Wühl (Elsevier, 1984), p. 949.<br />
90. Entropy of He II from 1.6 K to the λ-Line, A. Singsass and <strong>Guenter</strong> <strong>Ahlers</strong>, LT-17<br />
Karlsruhe, W. Germany, August 15-221984, Ed. by U. Eckern, A. Schmid, W. Weber, H.W.<br />
Wühl (Elsevier, 1984) p. 967.<br />
91. Damping of Second Sound Near the Superfluid Transition of 4 He as a Function of<br />
Pressure Ravi Mehrotra and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. B 30, 5116 1984.<br />
92. Universality of Static Properties Near the Superfluid Transition in 4 He, AlanSingsaas<br />
and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. B 30, 5103 1984.<br />
93. Damping of Fourth Sound in 4 HeDue to Normal-Fluid Flow, W.Y. Tam and <strong>Guenter</strong><br />
<strong>Ahlers</strong>, J. Low Temp. Phys. 58, 497 1985.<br />
7
94. Pattern Formation and Wave-Number Selection by Rayleigh-Bénard Convection in a<br />
Cylindrical Container, V. Steinberg, <strong>Guenter</strong> <strong>Ahlers</strong> and D.S. Cannell Phys. Scripta, T9,<br />
97 1985.<br />
95. Effects of “Kalliroscope” Flow Visualization Particles on rotating Couette-Taylor<br />
Flow, M.A. Dominguez-Lerma, <strong>Guenter</strong> <strong>Ahlers</strong> and David S. Cannell, Phys. Fluids 28, 1204<br />
1985.<br />
96. Tricritical Phenomena in Rotating Couette-Taylor Flow, Anneli Aitta, <strong>Guenter</strong><br />
<strong>Ahlers</strong> and David S. Cannell, Phys. Rev. Lett. 96, 673 1985.<br />
97. Time Dependence of Flow Patterns Near the Convective Threshold in a Cylindrical<br />
Container, David S. Cannell, <strong>Guenter</strong> <strong>Ahlers</strong> and V. Steinberg, Phys. Rev. Lett. 54, 1373<br />
1985.<br />
98. Experimental Observation of a Codimension-Two Bifurcation in a Binary Fluid Mix-<br />
ture, Ingo Rehberg and <strong>Guenter</strong> <strong>Ahlers</strong> Phys. Rev. Lett. 55, 500 1985.<br />
99. Thermal conductivity of 4 He I from near Tλ to 3.6 ◦ K and Vapor Pressure to 30 bars,<br />
W.Y. Tam and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. B 32, 5932 1985.<br />
100. Thermal Convection under External Modulation of the Driving: II. Experiments,<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, P.C. Hohenberg and M. Lücke, Phys. Rev. A 32, 3519 1985.<br />
101. Codimension Two Bifurcation in a Convection Experiment, Ingo Rehberg and<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, Cont. Math., 56, 277 1986.<br />
102. Thermal Conductivity of 4 He−I Near Tλ from Vapor Pressure to 28 bars: Com-<br />
parison of Experiment and Theory, W.Y. Tam and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. B 33, 183<br />
1986.<br />
103. Convection in a Binary Mixture Heated from Below, <strong>Guenter</strong> <strong>Ahlers</strong> and Ingo<br />
Rehberg, Phys. Rev. Lett. 56, 1373 1986.<br />
104. Eckhaus Boundary and Wavenumber Selection in Rotating Couette-Taylor Flow,<br />
M.A. Dominguez-Lerma, David S. Cannell and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. A 34, 4956<br />
1986.<br />
105. Effects of Finite Geometry on the Wavenumber of Taylor-Vortex Flow, Richard<br />
Heinrichs, <strong>Guenter</strong> <strong>Ahlers</strong> and David S. Cannell, Phys. Rev. Lett. 56, 1794 1986.<br />
8
107. Wavenumber Selection and Eckhaus Instability in Couette-Taylor Flow, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, D.S. Cannell, Marco A. Dominguez-Lerma, and R. Heinrichs, Physica, 23D, 202<br />
1986.<br />
108. Reply to the Comment by Folse and Mead on “Time Dependence of Flow Patterns<br />
Near the Convective Threshold in a Cylindrical Container”, <strong>Guenter</strong> <strong>Ahlers</strong> and D.S. Can-<br />
nell, Phys. Rev. Lett. 57, 1381 1986.<br />
109. Singularity in the Kapitza Resistance Between Gold and Superfluid 4 He Near Tλ,<br />
R.V. Duncan, <strong>Guenter</strong> <strong>Ahlers</strong> and V. Steinberg, Phys. Rev. Lett. 58, 377 1987.<br />
110. Superfluid Fraction of 4 He from 1.5 K to Tλ and from Vapor Pressure to the Melting<br />
Curve, W.Y. Tam and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Low Temp. Phys. 66, 173 1987.<br />
111. Experimental test of the Perturbation Expansion for the Taylor Instability at Various<br />
Wavenumbers R.M. Heinrichs, D.S. Cannell, <strong>Guenter</strong> <strong>Ahlers</strong> and Michael Jefferson, Phys.<br />
Fluids 31, 250 1988.<br />
112. Some Properties of an Eight-Mode Lorenz Model for Convection in Binary Fluids,<br />
<strong>Guenter</strong> <strong>Ahlers</strong> and M. Lücke, Phys. Rev. A 35, 470 1987. (RC)<br />
113. Travelling Waves and Spatial Variation in the Convection of a Binary Mixture, R.<br />
Heinrichs, <strong>Guenter</strong> <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. A 35, 2761 1987. (RC)<br />
114. Convection in a Binary Mixture (Proceedings Supplement), <strong>Guenter</strong> <strong>Ahlers</strong>, David<br />
S. Cannell and Richard Heinrichs, Nucl. Physics B, 2, 77 1987.<br />
115. Initial States of Pattern Formation in Rayleigh-Bénard Convection, C.W. Meyer,<br />
G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. Lett. 59, 1577 1987.<br />
116. Nonlinearity in the Kapitza Resistance Between Gold and Superfluid 4 He Near Tλ,<br />
R. Duncan and G. <strong>Ahlers</strong>, Jpn. J. Appl. Phys., 26-3, 363 1987.<br />
117. Depression of the Superfluid Transition in 4 He by a Heat Current, Robert V. Dun-<br />
can, <strong>Guenter</strong> <strong>Ahlers</strong>, and V. Steinberg, Phys. Rev. Lett. 60, 1522 1988.<br />
118. Erratum to Physical Review B 33, 183 (1986), Thermal Conductivity of 4 HeI near<br />
Tλ from Vapor pressure to 28 bar: Comparison of Experiment with Theory, W.Y. Tam and<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. B 37, 7898 1988.<br />
119. Convection in Binary Mixtures, G. <strong>Ahlers</strong>, D.S. Cannell, R. Heinrichs, and T.S.<br />
9
Sullivan, Proceedings of Les Houches Meeting, March 10-20, (1987).<br />
120. The Hopf Bifurcation to Convection Near the Codimension-Two Point in a 3 He−<br />
4 He Mixture, Timothy S. Sullivan and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 61, 78 1988.<br />
121. Finite-Size Effects on the Thermal for Conductivity of 4 He Near the Superfluid<br />
Transition, <strong>Guenter</strong> <strong>Ahlers</strong> and R.V. Duncan, Phys. Rev. Lett. 61, 846 1988.<br />
122. Non-Periodic Time Dependence At the Onset of Convection in a Binary Liquid<br />
Mixture, Timothy S. Sullivan and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. 38, 3143 1988.<br />
123. Deterministic and Stochastic Effects near the Convective Onset, <strong>Guenter</strong> <strong>Ahlers</strong>,<br />
Christopher W. Meyer and David S. Cannell, J. Stat. Phys. 54, 1121 (1989).<br />
124. Pattern Competition in TemporallyModulated Rayleigh-BénardConvection,Christo-<br />
pher W. Meyer, David S. Cannell, <strong>Guenter</strong> <strong>Ahlers</strong>, J.B. Swift and P.C. Hohenberg, Phys.<br />
Rev. Lett. 61, 947 1988.<br />
125. Onset of Convection, David S. Cannell, Christopher W. Meyer, and <strong>Guenter</strong> <strong>Ahlers</strong>,<br />
in 1988 ASI Random Fluctuations and Pattern Growth: Experiments and Theory (Kluwer<br />
Publishers, The Netherlands, 1988).<br />
126. Recent Experiments Near the Superfluid Transition of 4 He, G. <strong>Ahlers</strong> and R.V.<br />
Duncan, in Frontiers of Physics, Proceedings of the Landau Memorial Conference, edited by<br />
E. Gotsman, Y. Ne’eman, and A. Voronel (Pergamon, Oxford, England, 1990).<br />
127. Experiments on Bifurcations and One-Dimensional Patterns in Nonlinear Systems<br />
Far From Equilibrium, G. <strong>Ahlers</strong>, in Lectures in the Sciences of Complexity, SFI Studies in<br />
the Sciences of Complexity, Vol. I, edited by D. Stein (Addison-Wesley Longman, Reading,<br />
MA, 1989), pp. 175.<br />
128. Stochastic Effects Near the Convective Onset, C.W. Meyer, D.S. Cannell and G.<br />
<strong>Ahlers</strong>, Proceedings of the 7th Symposium on Energy Engineering Sciences, (Argonne, IL<br />
1989).<br />
129. Singularity and Nonlinearity in the Kapitza Resistance Between Gold and Superfluid<br />
4 He Near Tλ, R.V. Duncan and G. <strong>Ahlers</strong>, Phys. Rev. B 43, 7707 1991.<br />
130. Localized Travelling-Wave States in Binary-Fluid Convection, Joseph J. Niemela,<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, and David S. Cannell, Phys. Rev. Lett. 64, 1365 1990.<br />
10
131. Wavenumber Selection and Travelling Vortex Waves in Spatially Ramped Taylor-<br />
Couette Flows, Li Ning, <strong>Guenter</strong> <strong>Ahlers</strong>, and David S. Cannell, Phys. Rev. Lett. 64, 1235<br />
1990.<br />
132. Quantitative Studies of Nonlinear Second Sound Near Tλ, L.S. Goldner and G.<br />
<strong>Ahlers</strong>, Physica B, 165&166, 539 (1990).<br />
133. Superconducting Transition Thermometry for 4 He Lambda Point Experiments, M.<br />
Larson and G. <strong>Ahlers</strong>, Physica B, 165&166, 37 (1990).<br />
135. A Simple Model for the Bénard Instability with Horizontal Flow Near Threshold,<br />
H.R. Brand, R.J. Deissler and G. <strong>Ahlers</strong>, Phys. Rev. A, 43, 4262 (1991).<br />
136. The Stochastic Landau Equation with Time Dependent Drift, J.B. Swift, P.C. Ho-<br />
henberg and G. <strong>Ahlers</strong>, Phys. Rev. A, 43, 6572 (1991).<br />
137. Experiments with Pattern-Forming Systems, G. <strong>Ahlers</strong>, Physica D 51, 421 (1991).<br />
138. Thermally Induced Hydrodynamic Fluctuations Below the Onset of Electroconvec-<br />
tion, I. Rehberg, S. Rasenat, M. de la Torre-Juarez, W. Schöpf, F. Hörner, G. <strong>Ahlers</strong> and<br />
H.R. Brand, Phys. Rev. Lett. 67, 596 1991.<br />
139. Stochastic Influenceson Pattern Formationin Rayleigh-BénardConvectionI. Ramp-<br />
ing Experiments, C.W. Meyer, G. <strong>Ahlers</strong> and D.S. Cannell, Phys. Rev. A 44, 2514 1991.<br />
140. Quantitative Studies of Nonlinear Second Sound in Superfluid 4 He, L.S. Goldner, G.<br />
<strong>Ahlers</strong>, and R. Mehrotra, Phys. Rev. B 43, 12861 1991.<br />
141. Novel States in Taylor-Couette Flow Subjected to a Coriolis Force, L. Ning, G.<br />
<strong>Ahlers</strong> and D.S. Cannell, J. Stat. Phys. 64, 927 1991.<br />
142. Some Aspects of the Effect of Gravity on the Superfluid Transition in 4 He, G. <strong>Ahlers</strong>,<br />
J. Low Temp. Phys. 84, 173 1991.<br />
143. Experimentaland TheoreticalResults for Taylor-Couette FlowSubjected to a Coriolis<br />
Force, L. Ning, G. <strong>Ahlers</strong>, D.S. Cannell and M. Tveitereid, Phys. Rev. Lett. 66, 1575 1991.<br />
144. Taylor-Couette Flow Subjected to External Rotation, L. Ning, M. Tveitereid, G.<br />
<strong>Ahlers</strong> and D.S. Cannell, Phys. Rev. A 44, 2505 1991.<br />
145. Superfluid Density from Heat-Pulse Propagation Near the λ− Line in 4 He-Aerogel<br />
Systems, N. Mulders, R. Mehrotra, L.S. Goldner and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 67, 695<br />
11
1991.<br />
146. Effect of Noise on Bifurcations and Patterns in Dissipative Systems, G. <strong>Ahlers</strong>, in<br />
The Global Geometry of Turbulence, edited by J.Jimenez Sendin, (Plenum, London, 1991).<br />
147. On the Stability of Taylor-Couette Flow Subjected to External Rotation, M. Tveit-<br />
ereid, L. Ning, G. <strong>Ahlers</strong>, and D.S. Cannell, in Order and Turbulent Patterns in Taylor-<br />
Couette Flow, edited by C.D. Andereck and F. Hayot (Plenum, NY, 1992), p. 141.<br />
148. Bifurcations to Dynamic States in Taylor-Couette Flow with External Rotation, L.<br />
Ning, G.<strong>Ahlers</strong>, andD.S.Cannell, in Order andTurbulent Patterns inTaylor-Couette Flow,<br />
edited by C.D. Andereck and F. Hayot (Plenum, NY, 1992), p. 131.<br />
149. Noise-sustainedStructure in Taylor-CouetteFlowwith Through-Flow,K.L.Babcock,<br />
G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. Lett. 67, 3388 (1991).<br />
150. Transitions between Patterns in Thermal Convection, E. Bodenschatz, J.R. de<br />
Bruyn, G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. Lett. 67, 3078 (1991).<br />
151. A High-Resolution 4 He Melting-Pressure Thermometer for use Near 2K, L.S. Gold-<br />
ner, N. Mulders, and G. <strong>Ahlers</strong>, in Temperature: its Measurement and Control in Science<br />
and Industry, Vol. 6, edited by J.F. Schooly (American Institute of Physics, N.Y., 1992), p.<br />
113-116.<br />
152. A Sealed 4 He Superfluid-Transition Fixed-Point Device, R.V. Duncan andG. <strong>Ahlers</strong>,<br />
in Temperature: its Measurement and Control in Science and Industry, Vol. 6, edited by<br />
J.F. Schooly (American Institute of Physics, N.Y., 1992), p. 243-245.<br />
153 . Hexagonal and Roll Flow Patterns in Temporally Modulated Rayleigh-Bénard Con-<br />
vection, Christopher Meyer, David S. Cannell, and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. A 45, 8583<br />
(1992).<br />
154. The Superfluid Fraction of 4 He very close to Tλ, Lori S. Goldner and<strong>Guenter</strong> <strong>Ahlers</strong>,<br />
Phys. Rev. B 45, 13129 (1992).<br />
155. Stability and Noise in Taylor-Couette Flow with Through-Flow,KennethL.Babcock,<br />
David S. Cannell, and <strong>Guenter</strong> <strong>Ahlers</strong>, Physica D 61, 40 (1992).<br />
156. Experiments on Three Systems with Non-Variational Aspects, Eberhard Boden-<br />
schatz, David S. Cannell, Robert Ecke, Yu-Chou Hu, Kristina Lerman, and <strong>Guenter</strong> <strong>Ahlers</strong>,<br />
12
Physica D 61, 77 (1992).<br />
157. Convection in Gasses at Elevated Pressures, E. Bodenschatz, S. Morris, J. de Bruyn,<br />
D.S. Cannell, and G. <strong>Ahlers</strong>, in Proceedings of the KIT International Workshop on the<br />
Physics of Pattern Formation in Complex Dissipative Systems, edited by S. Kai (World<br />
Scientific, Singapore, 1992), pp.227.<br />
158. Thermal Expansion Coefficient of 4 He in an Aerogel, M. Larson, N. Mulders, and<br />
G. <strong>Ahlers</strong>, Phys. Rev. Lett. 68, 3896 (1992).<br />
159. Critical Properties of 4 He in Aerogel near the λ-line, M. Larson, N. Mulders, R.<br />
Mehrotra, L.S. Goldner, and G. <strong>Ahlers</strong>, J. Low. Temp. Phys. 89, 79 (1992).<br />
160. Transient Localized States in 2d Binary Liquid Convection, K. Lerman, E. Boden-<br />
schatz, D.S. Cannell, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 70, 3572 (1993).<br />
161. Thermal Convection in the presence of a First-Order Phase Change, G. <strong>Ahlers</strong>, L.I.<br />
Berge, and D.S. Cannell, Phys. Rev. Lett. 70, 2399 (1993).<br />
162. Thermal Convection in a Planar Nematic Liquid Crystal with a Stabilizing Magnetic<br />
Field, L.I. Berge, G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. E 48, R3236 (1993).<br />
163. Second Sound very near Tλ, L. Goldner, N. Mulders, and G. <strong>Ahlers</strong>, J. Low Temp.<br />
Phys. 93, 125 (1993).<br />
164. Spiral DefectChaos in Large Aspect Ratio Rayleigh-BénardConvection,S.W.Morris,<br />
E. Bodenschatz, D.S. Cannell, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 71, 2026 (1993).<br />
165. Measurement of Material Parameters of the Nematic Liquid Crystal I52, M. Dennin,<br />
G. <strong>Ahlers</strong> and D. S. Cannell, in Spatio-Temporal Patterns, edited by P. Palffy-Muhoray and<br />
P. Cladis (SFIStudies inthe Science of Complexity, Proc. Vol. XXI, Addison-Wesley, 1994).<br />
166. Measurement of a Short-Wavelength Instability in Taylor Vortex Flow, M. Dennin,<br />
D.S. Cannell, and G. <strong>Ahlers</strong>, Phys. Rev. E 49, 462 (1994).<br />
167. Noise Amplification in Open Taylor-Couette Flow, K.L. Babcock, G. <strong>Ahlers</strong>, and<br />
D.S. Cannell, Phys. Rev. E 50, 3670 (1994).<br />
168. The λ - Transition of 4 He in a Heat Current and under Gravity, F-C Liu and G.<br />
<strong>Ahlers</strong>, Physica B 194-196, 597 (1994).<br />
169. Spatial and Temporal Averages in Chaotic Patterns, L. Ning, Y. Hu, R.E. Ecke, and<br />
13
G. <strong>Ahlers</strong>, Phys. Rev. Lett. 71, 2216 (1993).<br />
170. Convection Near Threshold for Prandtl Numbers Near One, Y. Hu, R. Ecke, and G.<br />
<strong>Ahlers</strong>, Phys. Rev. E 48, 4399 (1993).<br />
171. Thermal Conductivity of 4 He in Aerogel Near the λ-Transition, A. M. Kahn and G.<br />
<strong>Ahlers</strong>, Physica B 194-196, 571 (1994).<br />
172. Thermal Conductivity of the Nematic Liquid Crystal 5CB, G. <strong>Ahlers</strong>, D.S. Cannell,<br />
L.I. Berge, and S. Sakurai, Phys. Rev. E 49, 545 (1994).<br />
173. Behavior of Focus Patterns in Low Prandtl Number Convection, Y.C. Hu, R. Ecke,<br />
and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 72, 2191 (1994).<br />
174. Patterns in Electroconvection in the Nematic Liquid Crystal I52, M. Dennin, D.S.<br />
Cannell, and G. <strong>Ahlers</strong>, Molec. Cryst. Liq. Cryst. 261, 337 (1995).<br />
175. Transition to Spiral-Defect Chaos in Low Prandtl Number Convection, Y.-C. Hu,<br />
R.E. Ecke, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 74, 391 (1995).<br />
176. Thermal Conductivity of 4 He Near the Superfluid Transition in a Restricted Geom-<br />
etry, A.M. Kahn and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 74, 944 (1995).<br />
177. Over Two Decades of Pattern Formation, a Personal Perspective, G. <strong>Ahlers</strong>, in 25<br />
Years of Nonequilibrium Statistical Mechanics, edited by M. Rubí (Springer, 1995)<br />
178. Convection for Prandtl Numbers Near One: Dynamics of Textured Patterns, Y.-C.<br />
Hu, R. Ecke, and G. <strong>Ahlers</strong>, Phys. Rev. E 51, 3263 (1995).<br />
179. Thermally Induced Fluctuations below the Onset of Rayleigh-Bénard Convection, M.<br />
Wu, G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. Lett. 75, 1743 (1995).<br />
180. Time and Length Scales in Rotating Rayleigh-Bénard Convection, Y.-C. Hu, R.<br />
Ecke, and G. <strong>Ahlers</strong>, Phys. Rev. Lett.74, 5040 (1995).<br />
181 Experiments on Thermally Driven Convection, G. <strong>Ahlers</strong>, in Pattern Formation in<br />
Liquid Crystals, edited by L. Kramer and A. Buka (Springer, 1996).<br />
182. Excitation of Spirals and Chiral Symmetry Breaking in Rayleigh-Bénard Convection,<br />
R. Ecke, Y.-C. Hu, R. Mainieri, and G. <strong>Ahlers</strong>, Science 269, 1704 (1995).<br />
183. Origin of Traveling Rolls in Electroconvection of Nematic Liquid Crystals, M. Den-<br />
nin, M Treiber, L. Kramer, G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. Lett. 76, 319 (1996).<br />
14
184. Rayleigh-Bénard Convection in Binary Mixtures with Separation Ratios near Zero,<br />
M.A. Dominguez-Lerma, G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. E. 52, 6159 (1995).<br />
185. Different convection dynamics in mixtures with the same separation ratio, K. Ler-<br />
man, G. <strong>Ahlers</strong>, and D.S. Cannell, Phys. Rev. E 53, R2041 (1996).<br />
186. Spatio-temporalChaos in Electroconvection,M.Dennin, G.<strong>Ahlers</strong>, andD.S.Cannell,<br />
Science 272, 388 (1996).<br />
187. Apparatus for the Study of Rayleigh-Bénard Convection in Gases under Pressure,<br />
J.R.deBruyn, E. Bodenschatz, S.Morris, S. Trainoff, Y.-C.Hu, D.S.Cannell, andG.<strong>Ahlers</strong>,<br />
Rev. Sci. Instrum. 67, 2043 (1996).<br />
188. A new dissipative region below the superfluid transition of 4 He in a heat current,<br />
F.-C. Liu and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 76, 1300 (1996).<br />
189. Chaotic localized states near the onset of electroconvection, M. Dennin, G. <strong>Ahlers</strong>,<br />
and D.S. Cannell, Phys. Rev. Lett. 77, 2475 (1996).<br />
190. The Spatio-Temporal Structure of Spiral Defect Chaos, S. Morris, E. Bodenschatz,<br />
G. <strong>Ahlers</strong>, and D.S. Cannell, Physica D 97, 164 (1996).<br />
191. Thermal Resistance below the Superfluid Transition of 4 He in a Heat Current, F.-C.<br />
Liu and G. <strong>Ahlers</strong>, Czechoslovak J. Phys. 46-Suppl, 189 (1996).<br />
192. 4 He very near Tλ heated from above, G. <strong>Ahlers</strong> and F.-C. Liu, Czechoslovak J. Phys.<br />
46-Suppl, 187 (1996).<br />
193. The Thermal Boundary Resistance in Superfluid 4 He Near Tλ, H. Baddar, H. Fu,<br />
F.-C. Liu, and G. <strong>Ahlers</strong>, Czechoslovak J. Phys. 46-Suppl, 191 (1996).<br />
194. A High-Resolution Susceptibility Thermometer for use Near 2 K, H. Baddar, H. Fu,<br />
M. Larson, N. Mulders, and G. <strong>Ahlers</strong>, Czechoslovak J. Phys. 46-Suppl, 2859 (1996).<br />
195. Spiral-defect chaos in Rayleigh-Bénard convection with small Prandtl numbers, J.<br />
Liu and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 77, 3126 (1996).<br />
196. 4 He Very near Tλ Heated from Above, G. <strong>Ahlers</strong> and F.-C. Liu, J. Low Temp. Phys.<br />
105, 255 (1996).<br />
197. Convection in the presence of a first-order phase change, S. Sakurai, A. Tschammer,<br />
W. Pesch, and G. <strong>Ahlers</strong>, Phys. Rev. E 60, 539 (1999).<br />
15
198. Convection under Rotation for Prandtl Numbers Near One: Part I. Linear Stability,<br />
Wavenumber Selection, and Pattern Dynamics, Y. Hu, R.E. Ecke, and G. <strong>Ahlers</strong>, Phys.<br />
Rev. E 55, 6928 (1997).<br />
199. Competition between Spiral-Defect Chaos and Rolls in Rayleigh-Bénard Convection,<br />
K.M.S. Bajaj, D.S. Cannell, and G. <strong>Ahlers</strong>, Phys. Rev. E 55, R4869 (1997).<br />
200. Patterns of Electroconvection in a Nematic Liquid Crystal, M.Dennin, D.S. Cannell,<br />
and G. <strong>Ahlers</strong>, Phys. Rev. E 57, 638 (1998).<br />
201. Rayleigh-Bénard Convection in Binary Gas Mixtures: Thermophysical properties<br />
and the Onset of Convection, J. Liu and G. <strong>Ahlers</strong>, Phys. Rev. E 55, 6950 (1997).<br />
202. Experiments on Spatio-Temporal Chaos, G. <strong>Ahlers</strong>, Physica A (249, 18 (1998).<br />
203. Opportiunities for Microgravity research along the Lambda Line of Liquid Helium,<br />
G. <strong>Ahlers</strong>, in Proceedings of the Joint X th European and VI th Russian Symposium on Phys-<br />
ical Sciences in Microgravity (St.Petersburg, Russa, June 15-21 1997), edited by V.S. Av-<br />
duyevsky and V.I. Polezhaev (Institute for Problems in Mechanics, RAS, Moscow, 1997), p.<br />
15.<br />
204. The Boundary Resistance Between Superfluid 4 He near Tlambda and a Solid Surface,<br />
H. Fu, H. Baddar, K. Kuehn, and G. <strong>Ahlers</strong>, Fizika Nizkikh Temperatur 24, 101 (1998) [Low<br />
Temp. Phys. 24, 69 (1998)].<br />
205. A High Resolution Thermometer for the Range 1.6 to 5 K, H. Fu, H. Baddar, K.<br />
Kuehn, M. Larson, N. Mulders, A. Schegolev, and G. <strong>Ahlers</strong>, J. Low Temp. Phys. 111, 49<br />
(1998).<br />
206. Thermal Fluctuations, Subcritical Bifurcation, and Nucleation of Localized States in<br />
Electroconvection, U. Bisang and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 80, 3061 (1998).<br />
207. Square Patterns in Rayleigh-Bénard Convection with Rotation About a Vertical<br />
Axis, K.M.S. Bajaj, J. Liu, B. Naberhuis, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 81, 806 (1998).<br />
208. Boundary Limitations of Wavenumbers in Taylor-Vortex Flow, M. Linek and G.<br />
<strong>Ahlers</strong>, Phys. Rev. E 58, 3168 (1998).<br />
209. Rayleigh-Bénard Convection in a Homeotropically Aligned Nematic Liquid Crystal,<br />
L. Thomas, W. Pesch, and G. <strong>Ahlers</strong>, Phys. Rev. E, 58, 5884 (1998).<br />
16
210. Convection Under Rotation for Prandtl Numbers Near One: Küppers-Lortz Insta-<br />
bility, Y. Hu, W. Pesch, G. <strong>Ahlers</strong>, and R.E. Ecke, Phys. Rev. E 58, 5821(1998).<br />
211. Pattern Formation in Rayleigh-Bénard Convection at Small Prandtl Numbers and<br />
with Rotation About a Vertical Axis, G. <strong>Ahlers</strong>, in Proceedings of the Sixteenth Symposium<br />
on Energy Engineering Sciences, Argonne IL May 13-15, 1998.<br />
212. Strukturbildung in der Natur und im Labor, Otto von Guericke Vortrag, 14. Oktober<br />
1997, G. <strong>Ahlers</strong>, in Journal der Universität Magdeburg.<br />
213. Opportunities for High-Resolution Measurements and Microgravity Research near<br />
the Superfluid Transition of Liquid 4 He, G. <strong>Ahlers</strong>, J. Low Temp. Phys. 113, 835 (1998).<br />
214. Rayleigh-Bénard Convection with Rotation at small Prandtl Numbers, G. <strong>Ahlers</strong> and<br />
K.M.S. Bajaj, in Proceedings of the IMA workshop on Pattern Formation in Continuous and<br />
Coupled Systems, edited by M. Golubitsky, D. Luss, and S. Strogatz (Springer, 1999).<br />
215. Finite-Size Effects on the Thermal Conductivity of 4 He near Tλ, G. <strong>Ahlers</strong>, in<br />
Proceedings of the 1998 NASA/JPL Microgravity Fundamental Physics Workshop, June 23-<br />
25, 1998.<br />
216. Extensive Scaling and Nonuniformity of the Karhunen-Loéve Decomposition for the<br />
Spiral-Defect Chaos State, S.M. Zoldi. J. Liu, K.M.S. Bajaj, H.S. Greenside, and G. <strong>Ahlers</strong>,<br />
Phys. Rev. E 58, R6903 (1998).<br />
217. Analysis of Transients for Binary-Mixture Convection in Cylindrical Geometry, K.<br />
Lerman, D.S. Cannell, and G. <strong>Ahlers</strong>, Phys. Rev. E 59, 2975 (1999).<br />
218. Finite-Size and Gravity Effects on the Thermal Conductivity of 4 He, G. <strong>Ahlers</strong>, J.<br />
Low Temp. Phys. 115, 143 (1999).<br />
219. Bifurcation to Worms in Electroconvection, U. Bisang and G. <strong>Ahlers</strong>, Phys. Rev. E<br />
60, 3910 (1999).<br />
220. Recent Developments in Rayleigh-Bénard Convection, E. Bodenschatz, W. Pesch,<br />
and G. <strong>Ahlers</strong>, Annu. Rev. Fluid Mech. 32, 709 (2000).<br />
221. Mutual Friction very close to the Superfluid Transition, H. Baddar, G. <strong>Ahlers</strong>, K.<br />
Kuehn, and H.-Y Fu, in Proceedings of the 1999 NASA/JPL Microgravity Fundamental<br />
Physics Workshop, April 29 to May 1, 1999.<br />
17
222. Wavenumber Selection and Large-Scale-Flow Effects due to a Radial Ramp of the<br />
Spacing in Rayleigh-Bénard Convection, K.M.S. Bajaj, N. Mukolobwiez, N. Currier, and G.<br />
<strong>Ahlers</strong>, Phys. Rev. Lett. 83, 5282 (1999).<br />
223. Boundary Effects near the Superfluid Transition (BEST), an Experiment Proposed<br />
for the ISS, G. <strong>Ahlers</strong>, P. Finley, E. Genio, K. Kuehn, F. Liu, Y. Liu, S. Mehta, and D.<br />
Murphy, in CP504, Space Technology and Applications International Forum - 2000, edited<br />
by M.S. El-Genk (American Institute of Physics, 2000), p. 662.<br />
224. Thermal Resistance of 4 He Below but Very Near the Superfluid Transition, H. Bad-<br />
dar, G. <strong>Ahlers</strong>, K. Kuehn, and H. Fu, J. Low Temp. Phys., 119, 1 (2000).<br />
225. Heat Transport in Turbulent Rayleigh-Bénard Convection, X.Xu, K.M.S. Bajaj, and<br />
G. <strong>Ahlers</strong>, Phys. Rev. Lett. 84, 4357 (2000).<br />
226. Deviations from linear theory for fluctuations below the supercritical primary bifur-<br />
cation to electroconvection, M.A. Scherer ,G. <strong>Ahlers</strong>, F. Hörner, and I. Rehberg, Phys. Rev.<br />
Lett. 85, 3754 (2000).<br />
227. Effect of Sidewall Conductance on Heat-Transport Measurements for Turbulent<br />
Rayleigh-Benard Convection, G. <strong>Ahlers</strong>, Phys. Rev. E. bf 63, 015303(R) (2001).<br />
228. Prandtl-number Dependence of Heat Transport in Turbulent Rayleigh-Bénard Con-<br />
vection, G. <strong>Ahlers</strong> and X. Xu, Phys. Rev. Lett. 86, 3320 (2001).<br />
229.Fundamental Physics in Space, C.W.F. Everitt, G. <strong>Ahlers</strong>, M. Jacob, S. Vitale, and<br />
N. Bigelow, Advances in Space Research, in press.<br />
230. Singularity in the boundary resistance between superfluid 4 He and a solid surface, K.<br />
Kuehn, S. Mehta, H. Fu, E. Genio, D. Murphy, F. Liu, Y. Liu, and G. <strong>Ahlers</strong>, Phys. Rev.<br />
Lett. 88, 096702 (2002).<br />
231. Mutual friction in superfluid 4 He near the λ-Line, K. Kuehn and G. <strong>Ahlers</strong>, J. Low<br />
Temp. Phys. 126, 1515 (2002).<br />
232. Traveling concentric-roll patterns in Rayleigh-Bénard convection with modulated<br />
rotation, K.L. Thompson, K.M.S. Bajaj, and G. <strong>Ahlers</strong>, Phys. Rev. E 65, 046218 (2002).<br />
233. Temporal and spatial properties of fluctuations below a supercritical primary bifur-<br />
cation to traveling oblique-roll electroconvection, M.A. Scherer and G. <strong>Ahlers</strong>, Phys. Rev. E<br />
18
65, 051101 (2002).<br />
234. Rayleigh-Bénard convection with rotation at small Prandtl numbers, K.M.S. Bajaj,<br />
G. <strong>Ahlers</strong>, and W. Pesch, Phys. Rev. E 65, 056309 (2002).<br />
235. Hochpräzision im Kochtopf, G. <strong>Ahlers</strong>, S. Grossmann und D. Lohse, Physik Journal<br />
2-2, 31 (2002).<br />
236. Rayleigh-Bénard convection in elliptic and stadium-shaped containers, W.<br />
Meevasana and G. <strong>Ahlers</strong>, Phys. Rev. E 66, 046308 (2002).<br />
237. Finite-size scaling and universality of the thermal resistivity of liquid 4 He near Tλ,<br />
D. Murphy, E. Genio, G. <strong>Ahlers</strong>, F.C. Liu, and Y. Liu, Phys. Rev. Lett. 90, 025301 (2003).<br />
238. Fluctuation-induced first-order transition to Rayleigh-Bénard convection, J. Oh and<br />
G. <strong>Ahlers</strong>, submitted to Science.<br />
239. Scaling and universality of the thermal conductivity of liquid 4 He near the superfluid<br />
transition and in restricted geometries, E. Genio, D. Murphy, G. <strong>Ahlers</strong>, F.-C. Liu, and<br />
Y.-M. Liu, Advances in Space Research, accepted for publication.<br />
240. Critical Phenomena near Bifurcations in Nonequilibrium Systems, G. <strong>Ahlers</strong> and J.<br />
Oh, International Journal of Modern Physics B 17, 3899 (2003).<br />
241. Thermal-Noise Effect on the Transition to Rayleigh-Bénard Convection, J. Oh and<br />
G. <strong>Ahlers</strong>, Phys. Rev. Lett. 91, 094501 (2003).<br />
242. Experiments with Rayleigh-Bénard Convection, G. <strong>Ahlers</strong>, in ”Dynamics of spatio-<br />
temporal structures - Henri Benard centenary review”, edited by I. Mutabazi, E. Guyon,<br />
and J.E. Wesfreid (Springer Tracts in Modern Physics, 2005).<br />
243. Dynamics of fluctuations in a fluid below the onset of Rayleigh-Benard convection,<br />
J. Oh, J. Ortiz de Zarate, J. Sengers, and G. <strong>Ahlers</strong>, Phys. Rev. E 69, 021106 (2004).<br />
244. Experiments in Fundamental Physics scheduled and in development for the ISS, C.<br />
Laemmerzahl, G. <strong>Ahlers</strong>, N. Ashby, M. Barmatz, P.L. Biermann, H. Dittus, V. Dohm, R.<br />
Duncan, K. Gibble, J. Lipa, N. Lockerbie, N. Mulders, and C. Salomon, General Relativity<br />
and Gravitation 36, 615 (2004).<br />
245. Plume motion and large-scale circulation in a cylindrical Rayleigh-Bénard cell, D.<br />
Funfschilling and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 92, 194502 (2004).<br />
19
246.Wave-number Selection by Target Patterns and Side Walls in Rayleigh-Bénard Con-<br />
vection, J.R. Royer, P. O’Neill, N. Becker, and G. <strong>Ahlers</strong>, Phys. Rev. E 70 , 036313<br />
(2004).<br />
247. Heat transport by turbulent Rayleigh-Bénard Convection in cylindrical cells with<br />
aspect ratio one and less, Alexei Nikolaenko, Eric Brown, Denis Funfschilling, and G. <strong>Ahlers</strong>,<br />
J. Fluid Mech. 523, 251 (2005).<br />
248.Dynamics of fluctuations below a stationary bifurcation to electroconvection in the<br />
planar nematic liquid crystal N4, Xin-Liang Qiu and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 94,<br />
087802 (2005).<br />
249.Heat transport in turbulent Rayleigh-Bénard convection: Effect of finite top- and<br />
bottom-plate conductivity, E. Brown, A. Nikolaenko, D. Funfschilling, and G. <strong>Ahlers</strong>, Phys.<br />
Fluids 17, 75108 (2005).<br />
250.Heat transport by turbulent Rayleigh-Bénard Convection in cylindrical cells with as-<br />
pect ratio one and larger, Denis Funfschilling, Eric Brown, Alexei Nikolaenko, and <strong>Guenter</strong><br />
<strong>Ahlers</strong>, J. Fluid Mech. 536, 145 (2005).<br />
251.Orientation changes of the large-scale circulation in turbulent Rayleigh-Bénard con-<br />
vection, Eric Brown, Alexei Nikolaenko, and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 95, 084503<br />
(2005).<br />
252.Search for slow transients, and the effect of imperfect vertical alignment, in turbulent<br />
Rayleigh-Bénard convection, <strong>Guenter</strong> <strong>Ahlers</strong>, Eric Brown, and Alexei Nikolaenko, J. Fluid<br />
Mech. 557, 347 (2006).<br />
253.Non-Oberbeck-Boussinesq effects in strongly turbulent Rayleigh-Bénard convection,<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, Eric Brown, Francisco Fontenele Araujo, Denis Funfschilling, Siegfried<br />
Grossmann, and Detlef Lohse, J. Fluid Mech. 569, 409-445 (2006).<br />
254.Rayleigh-Bénard convection in the presence of a radial ramp of the Rayleigh number,<br />
K.M.S. Bajaj, N. Mukolobeicz, J. Oh, and G. <strong>Ahlers</strong>, J. Stat. Mech. P02001 (2006).<br />
255.Effect of the Centrifugal Force on Domain Chaos in Rayleigh-Bénard convection, N.<br />
Becker, J.D. Scheel, M.C. Cross, and G. <strong>Ahlers</strong>, Phys. Rev. E 73, 066309 (2006).<br />
256.The Domain Chaos Puzzle and the Calculation of the Structure Factor and Its Half-<br />
Width, N. Becker and G. <strong>Ahlers</strong>, Phys. Rev. E 73, 046209 (2006).<br />
20
257.Onset of electro-convection of homeotropically aligned nematic liquid crystals, Sheng-<br />
Qi Zhou, Nandor Eber, Agnes Buka, Werner Pesch, and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. E 74,<br />
046211 (2006).<br />
258.Rotations and cessations of the large-scale circulation in turbulent Rayleigh-Bénard<br />
convection, Eric Brown and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Fluid Mech. 568,351-386 (2006).<br />
259.Finite-Size Effects on the Thermal Resistivity of 4 He near the Superfluid Transition,<br />
Sergei Jerebets, Yuanming Liu, Fengchuan Liu, and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Low Temp. Phys.<br />
146 (5/6) 471 (2007).<br />
260.Spatio-temporal chaos in electro-convection of a homeotropically aligned nematic liq-<br />
uid crystal, Sheng-Qi Zhou and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. E 74, 046212 (2006).<br />
261.Effect of the Earth’s Coriolis force on the large-scale circulation of turbulent Rayleigh-<br />
Bénard convection, Eric Brown and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Fluids 18, 125108 (2006).<br />
262.Local wave director analysis of domain chaos in Rayleigh-Bénard convection, Nathan<br />
Becker and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Stat. Mech. (2006) P12002.<br />
263.Non-Oberbeck-Boussinesq effects in gaseous Rayleigh-Bénard convection, <strong>Guenter</strong><br />
<strong>Ahlers</strong>, Francisco Fontenele Araujo, Denis Funfschilling, Siegfried Grossmann, and Detlef<br />
Lohse, Phys. Rev. Lett. 98, 054501 (2007).<br />
264.A model for the large-scale circulation in turbulent Rayleigh-Bénard convection, Eric<br />
Brown and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. Lett. 98, 134501 (2007).<br />
265.Azimuthal oscillations of the large-scale circulation in turbulent Rayleigh-Bénard con-<br />
vection, Denis Funfschilling, Eric Brown, and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Fluid Mech. 607, 119 -<br />
139 (2008).<br />
266.Specific Heat of 4 He Confined in Cylindrical Micro-channels and near the Superfluid<br />
Transition, Tahar Aouaroun and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Low Temp. Phys. 149 (5-6), 209<br />
(2007).<br />
267.Temperature gradients, and search for non-Boussinesq effects, in the interior of tur-<br />
bulent Rayleigh-Bénard convection, Eric Brown and <strong>Guenter</strong> <strong>Ahlers</strong>, Europhysics Letters<br />
80, 14001 (2007).<br />
268.Anomalous Reynolds-number scaling in turbulent Rayleigh-Bénard convection, Eric<br />
21
Brown, Denis Funfschilling, and <strong>Guenter</strong> <strong>Ahlers</strong>, J. Stat. Mech. P10005 (2007).<br />
269.Non-Oberbeck-Boussinesq effects in turbulent thermal convection in ethane close to<br />
the critical point, <strong>Guenter</strong> <strong>Ahlers</strong>, Enrico Calzavarini, Francisco Fontenele Araujo, Denis<br />
Funfschilling, Siegfried Grossmann, Detlef Lohse , and Kazuyasu Sugiyama, Phys. Rev. E<br />
77, 046302-1 – 16 (2008).<br />
270.A model of diffusion in a potential well for the dynamics of the large-scale circulation<br />
in turbulent Rayleigh-Bénard convection, Eric Brown and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Fluids A<br />
20, 075101-1 – 16 (2008).<br />
271.Azimuthal asymmetries of the large-scale circulation in turbulent Rayleigh-Bénard<br />
convection, Eric Brown and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Fluids A 20, 105105–1-15(2008).<br />
272.Heat transfer and large scale dynamics in turbulent Rayleigh-Bénard convection,<br />
<strong>Guenter</strong> <strong>Ahlers</strong>, Siegfried Grossmann, and Detlef Lohse, Rev. Mod. Phys. 81, 503 (2009).<br />
273.Prandtl-, Rayleigh-, and Rossby-number dependence of heat transport in turbulent<br />
rotating Rayleigh-Bénard convection , J.-Q. Zhong, R.J.A.M. Stevens, H.J.H. Clercx, R.<br />
Verzicco, D. Lohse, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 102, 044502 (2009).<br />
274.Enhanced heat transport by turbulent two-phase Rayleigh-Bénard convection , J.-Q.<br />
Zhong, D. Funfschilling, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 102, 124501 (2009).<br />
275.Transitions between turbulent states in rotating Rayleigh-Bénard convection ,<br />
R.J.A.M. Stevens, J.-Q. Zhong, H.J.H. Clercx, G. <strong>Ahlers</strong>, and D. Lohse, Phys. Rev. Lett.,<br />
103, 024503 (2009).<br />
276.The origin of oscillations of the large-scale circulation of turbulent Rayleigh-Bénard<br />
convection, E. Brown and G. <strong>Ahlers</strong>, J. Fluid Mech. 638, 383-400 (2009).<br />
277.Strong non-Boussinesq effects near the onset of convection in a fluid near its critical<br />
point, G. <strong>Ahlers</strong>, B. Dressel, J. Oh, and W. Pesch, J. Fluid Mech. 642, 15-48 (2009).<br />
278.Search for the “ultimate state” in turbulent Rayleigh-Bénard convection, D. Funf-<br />
schilling, E. Bodenschatz, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 103, 014503 (2009).<br />
279.Turbulent Rayleigh-Bénard convection for a Prandtl number of 0.67, G. <strong>Ahlers</strong>, E.<br />
Bodenschatz, D. Funfschilling, and J. Hogg, J. Fluid Mech. 641, 157-167 (2009).<br />
280.Turbulent convection, G. <strong>Ahlers</strong>, Physics 2, 74 (2009).<br />
22
281.Effect of a polymer additive on heat transport in turbulent Rayleigh-Bénard convec-<br />
tion, G. <strong>Ahlers</strong> and A. Nikolaenko, Phys. Rev. Lett. 104, 034503 (2010).<br />
282.Transitions in heat transport by turbulent convection for Pr = 0.8 and 10 11 ≤ Ra ≤<br />
10 15 , G. <strong>Ahlers</strong>, D. Funfschilling, and E. Bodenschatz, New J. Phys. 11, 123001 (2009).<br />
283.The onset of Rayleigh-Bénard convection in cylindrical containers, Francois Hébert,<br />
Ryan Hufschmid, Janet Scheel, and <strong>Guenter</strong> <strong>Ahlers</strong>, Phys. Rev. E 81, 046318 (2010).<br />
284.Heat transport and the large-scale circulation in rotating turbulent Rayleigh-Bénard<br />
convection, J.-Q. Zhong and G. <strong>Ahlers</strong>, J. Fluid Mech. 665, 300-333 (2010).<br />
285.Finite-size effects lead to supercritical bifurcations in turbulent rotating Rayleigh-<br />
Bénard convection, S. Weiss, R.J.A.M. Stevens, J.-Q. Zhong, H.J.H. Clercx, D. Lohse, and<br />
G. <strong>Ahlers</strong>, Phys. Rev. Lett. 105, 225401 (2010).<br />
286.Turbulent Rayleigh-Bénard convection in a cylindrical container with aspect ratio<br />
Γ = 0.50 and Prandtl number Pr = 4.38, S. Weiss, and G. <strong>Ahlers</strong>, J. Fluid Mech. 676, 5-40<br />
(2011) (2011).<br />
287.Addendum: Transitions in heat transport by turbulent convection at Rayleigh numbers<br />
up to 10 15 , G. <strong>Ahlers</strong>, D.Funfschilling, and E. Bodenschatz, New J. Phys. 13, 049401 (2011)<br />
(2p.).<br />
288.Heat transport in turbulent Rayleigh-Bénard convection for Pr ≃ 0.8 and Ra < ∼ 1015 ,<br />
G. <strong>Ahlers</strong>, D. Funfschilling, and E. Bodenschatz, J. Phys.: Conf. Ser. 318, 082001 (2011)<br />
(4p).<br />
289.Bifurcations in turbulent rotating Rayleigh-Bénard convection: A finite-size effect, S.<br />
Weiss and G. <strong>Ahlers</strong>, J. Phys.: Conf. Ser. 318, 082015 (2011) (4p).<br />
290.Heat transport by turbulent rotating Rayleigh-Bénard convection, S. Weiss, and G.<br />
<strong>Ahlers</strong>, J. Fluid Mech. 684, 407-426 (2011).<br />
291.The large-scale flow structure in turbulent rotating Rayleigh-Bénard convection, S.<br />
Weiss, and G. <strong>Ahlers</strong>, J. Fluid Mech., 684, 407-426 (2011).<br />
292.Transition to the ultimate state of turbulent Rayleigh-Bénard convection, X. He, D.<br />
Funfschilling, H. Nobach, E. Bodenschatz, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 108, 024502<br />
(2012).<br />
23
293.Plume fragmentation by bulk interactions in turbulent Rayleigh-Bénard convection, J.<br />
Bosbach, S. Weiss, and G. <strong>Ahlers</strong>, Phys. Rev. Lett. 108, 054501 (2012).<br />
294.Magnetic-field effect on turbulent thermal convection of a nematic liquid crystal, S.<br />
Weiss and G. <strong>Ahlers</strong>, submitted (2012).<br />
295.Logarithmic temperature profiles in turbulent Rayleigh-Bénard convection, G. <strong>Ahlers</strong>,<br />
E. Bodenschatz, D. Funfschilling, S. Grossmann, X.He, D. Lohse, R.J.A.M. Stevens, and R.<br />
Verzicco, Phys. Rev. Lett., submitted (2012).<br />
296.Heat transport by turbulent Rayleigh-Bénard convection for Pr ≃ 0.8 and 3×10 12 < ∼<br />
Ra < ∼ 1015 : Aspect ratio Γ = 0.50, G. <strong>Ahlers</strong>, X. He, D. Funfschilling, and E. Bodenschatz,<br />
New J. Phys., submitted (2012).<br />
297.Heat transport by turbulent Rayleigh-Bénard convection for Pr ≃ 0.8 and 4×10 11 < ∼<br />
Ra < ∼ 2×1014 : Ultimate-state transition for aspect ratio Γ = 1.00 , X. He, D. Funfschilling,<br />
E. Bodenschatz, and G. <strong>Ahlers</strong>, New J. Phys. 14, 063030 (2012).<br />
298.Effect of tilting on turbulent convection: Cylindrical samples with aspect ratio Γ =<br />
0.50, S. Weiss and G. <strong>Ahlers</strong>, submitted to JFM (2012).<br />
24