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Journal articles on the topic 'Kinetic Theory'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Castillo, R. C., E. Martina, M. López de Haro, J. Karkheck, and G. Stell. "Linearized kinetic-variational theory and short-time kinetic theory." Physical Review A 39, no. 6 (1989): 3106–11. http://dx.doi.org/10.1103/physreva.39.3106.

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2

Weyssow, B. "Plasma Kinetic Theory." Fusion Science and Technology 53, no. 2T (2008): 68–84. http://dx.doi.org/10.13182/fst08-a1692.

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3

Weyssow, B. "Plasma Kinetic Theory." Fusion Science and Technology 57, no. 2T (2010): 69–85. http://dx.doi.org/10.13182/fst10-a9397.

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4

Maaßberg, H. "Stellarator Kinetic Theory." Fusion Technology 37, no. 2T (2000): 63–70. http://dx.doi.org/10.13182/fst00-a11963200.

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5

Everson, D. "The kinetic theory." Journal of Science and Medicine in Sport 9 (December 2006): 33. http://dx.doi.org/10.1016/j.jsams.2006.12.077.

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6

Clarke, C. J., and J. E. Pringle. "Kinetic theory viscosity." Monthly Notices of the Royal Astronomical Society 351, no. 4 (2004): 1187–92. http://dx.doi.org/10.1111/j.1365-2966.2004.07847.x.

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7

MORAWETZ, KLAUS, VÁCLAV ŠPIČKA, and PAVEL LIPAVSKÝ. "NONLOCAL KINETIC THEORY." International Journal of Modern Physics B 15, no. 10n11 (2001): 1744–47. http://dx.doi.org/10.1142/s0217979201006288.

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The short time behavior of a disturbed system is influenced by off-shell motion and characterized by the reduced density matrix possessing high energetic tails. After this short time regime the time evolution is controlled by small gradients. This leads to a nonlocal Boltzmann equation for the quasiparticle distribution and a functional relating the latter one to the reduced density matrix. The nonlocalities are presented as time and space shifts arising from gradient expansion and are leading to virial corrections in the thermodynamical limit.
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8

Grmela, Miroslav, and David Jou. "Extended kinetic theory." Journal of Mathematical Physics 34, no. 6 (1993): 2290–316. http://dx.doi.org/10.1063/1.530117.

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9

Weyssow, B. "Plasma Kinetic Theory." Fusion Science and Technology 61, no. 2T (2012): 69–85. http://dx.doi.org/10.13182/fst12-a13494.

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10

Marklund, Mattias, Jens Zamanian, and Gert Brodin. "Spin Kinetic Theory—Quantum Kinetic Theory in Extended Phase Space." Transport Theory and Statistical Physics 39, no. 5-7 (2010): 502–23. http://dx.doi.org/10.1080/00411450.2011.566502.

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11

Shapiro, Bella L. "COSTUME AS A KINETIC CATEGORY." Articult, no. 2 (June 2025): 5–13. https://doi.org/10.28995/2227-6165-2025-2-5-13.

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The research focuses on the evolution of the kinetic approach to costume design. Movement as one of the most important means of artistic expression of costume is considered through the prism of interaction of kinetics with optical art, deconstructivism and technological art. Each episode of interaction assigned to one of the cultural-historical periods (1955–1970s, 1980–1990s, and 2000–2020s) when it was most active. The issue considered in the background of developments in the theory of kinetic garment construction and kinetic body theory. The result of the research is the conclusion: costume
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12

Kremer, Gilberto M. "Post-Newtonian kinetic theory." Annals of Physics 426 (March 2021): 168400. http://dx.doi.org/10.1016/j.aop.2021.168400.

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13

Stephanov, Mikhail. "Relativistic Chiral Kinetic Theory." Nuclear Physics A 956 (December 2016): 657–60. http://dx.doi.org/10.1016/j.nuclphysa.2016.04.015.

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14

Cornely-Moss, Kathleen. "Kinetic Theory of Gases." Journal of Chemical Education 72, no. 8 (1995): 715. http://dx.doi.org/10.1021/ed072p715.

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15

Hamity, Victor H., and Daniel E. Barraco. "Relativistic nonextensive kinetic theory." Physica A: Statistical Mechanics and its Applications 282, no. 1-2 (2000): 203–11. http://dx.doi.org/10.1016/s0378-4371(00)00062-5.

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16

Kogan, M. N. "Kinetic theory in aerothermodynamics." Progress in Aerospace Sciences 29, no. 4 (1992): 271–354. http://dx.doi.org/10.1016/0376-0421(92)90007-5.

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17

Qin, H., W. M. Tang, and W. W. Lee. "Gyrocenter-gauge kinetic theory." Physics of Plasmas 7, no. 11 (2000): 4433–45. http://dx.doi.org/10.1063/1.1309031.

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18

Nastar, Maylise. "Beyond the Cahn-Hilliard Equation: a Vacancy-Based Kinetic Theory." Solid State Phenomena 172-174 (June 2011): 321–30. http://dx.doi.org/10.4028/www.scientific.net/ssp.172-174.321.

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A Self-Consistent Mean Field (SCMF) kinetic theory including an explicit description ofthe vacancy diffusion mechanism is developed. The present theory goes beyond the usual local equi-librium hypothesis. It is applied to the study of the early time spinodal decomposition in alloys. Theresulting analytical expression of the structure function highlights the contribution of the vacancydiffusion mechanism. Instead of the single amplification rate of the Cahn-Hillard linear theory, thelinearized SCMF kinetic equations involve three constant rates, first one describing the vacancy re-laxation kine
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19

Slyusarenko, Yu V., I. A. Ryzha, and A. I. Kirdin. "Nonlinear dynamics of kinetic fluctuations and quasi-linear relaxation in plasma." Mathematical Modeling and Computing 10, no. 2 (2023): 421–34. http://dx.doi.org/10.23939/mmc2023.02.421.

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We propose an approximation of pair correlations for solving the equations of the kinetic theory of long-wave (or large-scale) fluctuations in gaseous media. The basic ones are the general nonlinear equations of the large-scale fluctuations theory at the kinetic stage of system evolution, derived from the first principles of statistical mechanics. We show that based on the equations of the long-wave fluctuations kinetics in the case of weak interaction between particles, in the approximation of pair fluctuations it is possible to reproduce the main results of the quasi-linear theory of plasma.
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20

Yablonsky, Gregory S., Denis Constales, and Guy B. Marin. "Single-Route Linear Catalytic Mechanism: A New, Kinetico-Thermodynamic Form of the Complex Reaction Rate." Symmetry 12, no. 10 (2020): 1748. http://dx.doi.org/10.3390/sym12101748.

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For a complex catalytic reaction with a single-route linear mechanism, a new, kinetico-thermodynamic form of the steady-state reaction rate is obtained, and we show how its symmetries in terms of the kinetic and thermodynamic parameters allow better discerning their influence on the result. Its reciprocal is equal to the sum of n terms (n is the number of complex reaction steps), each of which is the product of a kinetic factor multiplied by a thermodynamic factor. The kinetic factor is the reciprocal apparent kinetic coefficient of the i-th step. The thermodynamic factor is a function of the
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21

Kremp, D., D. Semkat, and M. Bonitz. "Short-time kinetics and initial correlations in quantum kinetic theory." Journal of Physics: Conference Series 11 (January 1, 2005): 1–13. http://dx.doi.org/10.1088/1742-6596/11/1/001.

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22

Lyubenova, V. "Monitoring the Kinetics of Bioprocess Variables – Theory and Applications." Information Technologies and Control 14, no. 1 (2016): 2–12. http://dx.doi.org/10.1515/itc-2016-0016.

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Abstract A new method for monitoring of bioprocess kinetics is developed where there exists a set of measured variables but the use of constant values of kinetic parameters is not acceptable. The method is based on new formalization of kinetics of biotechnological processes. It is generalized in one vector including unknown time-varying parameters only. For kinetics estimation, a general structure of software sensor is presented. A optimization procedure for tuning of the sensor’s parameters is proposed on the basis of stability and convergence analysis. The proposed method is applied for moni
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23

Komorsky-Lovrić, Š., and M. Lovrić. "Theory of staircase cyclic voltammetry of two electrode reactions coupled by a chemical reaction." Bulgarian Chemical Communications 51, no. 3 (2019): 348–57. http://dx.doi.org/10.34049/bcc.51.3.4983.

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Two reversible electrode reactions that are connected by either reversible or totally irreversible chemical reactions are theoretically analysed by staircase cyclic voltammetry. The dependence of peak potentials on the thermodynamic and kinetic parameters is calculated. If the mechanism is permanently in equilibrium, the stability constant of the reversible chemical reaction can be determined. Furthermore, the critical kinetic parameter is determined and its application to the measurement of the forward rate constant of the chemical reaction is demonstrated. Also, the influence of the kinetics
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24

Guillen, M. A., and R. L. Liboff. "Kinetic theory of galaxy correlations." Monthly Notices of the Royal Astronomical Society 231, no. 4 (1988): 957–68. http://dx.doi.org/10.1093/mnras/231.4.957.

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25

Honkonen, J., M. V. Komarova, Yu G. Molotkov, and M. Yu Nalimov. "Kinetic Theory of Boson Gas." Theoretical and Mathematical Physics 200, no. 3 (2019): 1360–73. http://dx.doi.org/10.1134/s0040577919090095.

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26

Sone,, Y., and C. Michaelis,. "Kinetic Theory and Fluid Dynamics." Applied Mechanics Reviews 56, no. 3 (2003): B44. http://dx.doi.org/10.1115/1.1566404.

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27

Velzen, G. A. van. "Lattice Lorentz gas: kinetic theory." Journal of Physics A: Mathematical and General 23, no. 21 (1990): 4953–76. http://dx.doi.org/10.1088/0305-4470/23/21/032.

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28

Kalikmanov, V. I. "Mean-field kinetic nucleation theory." Journal of Chemical Physics 124, no. 12 (2006): 124505. http://dx.doi.org/10.1063/1.2178812.

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29

Wagner, Wolfgang. "Stochastic models in kinetic theory." Physics of Fluids 23, no. 3 (2011): 030602. http://dx.doi.org/10.1063/1.3558866.

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30

Garrett, A. J. M. "Kinetic Theory of Cross-Modulation." Journal of Electromagnetic Waves and Applications 7, no. 5 (1993): 667–74. http://dx.doi.org/10.1163/156939393x00796.

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31

Burby, J. W. "Finite-dimensional collisionless kinetic theory." Physics of Plasmas 24, no. 3 (2017): 032101. http://dx.doi.org/10.1063/1.4976849.

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32

Schneider, Jacques. "Entropic approximation in kinetic theory." ESAIM: Mathematical Modelling and Numerical Analysis 38, no. 3 (2004): 541–61. http://dx.doi.org/10.1051/m2an:2004025.

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33

Patterson, Robert I. A., Sergio Simonella, and Wolfgang Wagner. "Kinetic theory of cluster dynamics." Physica D: Nonlinear Phenomena 335 (November 2016): 26–32. http://dx.doi.org/10.1016/j.physd.2016.06.007.

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34

Bird, R. Byron. "Kinetic theory of polymeric liquids." Accounts of Chemical Research 18, no. 12 (1985): 364–71. http://dx.doi.org/10.1021/ar00120a002.

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35

Eu, Byung Chan. "Kinetic theory and irreversible thermodynamics." Accounts of Chemical Research 19, no. 5 (1986): 153–60. http://dx.doi.org/10.1021/ar00125a005.

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36

Spiga, Giampiero. "Kinetic Theory and Fluid Dynamics." European Journal of Mechanics - B/Fluids 22, no. 2 (2003): 201–2. http://dx.doi.org/10.1016/s0997-7546(03)00015-3.

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37

Bringuier, E., and A. Bourdon. "Kinetic theory of colloid thermodiffusion." Physica A: Statistical Mechanics and its Applications 385, no. 1 (2007): 9–24. http://dx.doi.org/10.1016/j.physa.2007.06.011.

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38

Karakas, Mehmet. "Disco Dancing and Kinetic Theory." Journal of Chemical Education 87, no. 9 (2010): 928–30. http://dx.doi.org/10.1021/ed100226r.

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39

Schram, Piet. "Kinetic Theory and Fluid Dynamics." Physica B: Condensed Matter 339, no. 2-3 (2003): 134–36. http://dx.doi.org/10.1016/j.physb.2003.08.110.

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40

Bringuier, E. "Kinetic theory of inhomogeneous diffusion." Physica A: Statistical Mechanics and its Applications 388, no. 13 (2009): 2588–99. http://dx.doi.org/10.1016/j.physa.2009.03.010.

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41

Mischler, Stéphane, and Clément Mouhot. "Kac’s program in kinetic theory." Inventiones mathematicae 193, no. 1 (2012): 1–147. http://dx.doi.org/10.1007/s00222-012-0422-3.

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42

Cercignani, Carlo. "Temperature, entropy, and kinetic theory." Journal of Statistical Physics 87, no. 5-6 (1997): 1097–109. http://dx.doi.org/10.1007/bf02181273.

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43

Eilert, Tobias, Eleni Kallis, Julia Nagy, Carlheinz Röcker, and Jens Michaelis. "Complete Kinetic Theory of FRET." Journal of Physical Chemistry B 122, no. 49 (2018): 11677–94. http://dx.doi.org/10.1021/acs.jpcb.8b07719.

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44

Fisher, L. "Kinetic theory of crossed vortices." Physica B: Condensed Matter 284-288 (July 2000): 735–36. http://dx.doi.org/10.1016/s0921-4526(99)02433-3.

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45

Jorquera, Hector, and John S. Dahler. "A kinetic theory of suspensions." Journal of Chemical Physics 96, no. 9 (1992): 6917–44. http://dx.doi.org/10.1063/1.462585.

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46

Iannini, M. L. L., and Ronald Dickman. "Kinetic theory of vehicular traffic." American Journal of Physics 84, no. 2 (2016): 135–45. http://dx.doi.org/10.1119/1.4935895.

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47

Harrison, Lionel G. "Kinetic theory of living pattern." Endeavour 18, no. 4 (1994): 130–36. http://dx.doi.org/10.1016/0160-9327(95)90520-5.

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48

Mazzei, R. "Submicroscopical nuclear track kinetic theory." Nuclear Tracks and Radiation Measurements 22, no. 1-4 (1993): 145–48. http://dx.doi.org/10.1016/0969-8078(93)90035-3.

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49

Prostnev, A. S., M. A. Kozhushner, and B. R. Shub. "Kinetic theory of surface migration." Surface Science 336, no. 3 (1995): 385–96. http://dx.doi.org/10.1016/0039-6028(95)00506-4.

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50

Chliamovitch, Gregor, Orestis Malaspinas, and Bastien Chopard. "Kinetic Theory beyond the Stosszahlansatz." Entropy 19, no. 8 (2017): 381. http://dx.doi.org/10.3390/e19080381.

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