Most Popular Papers

We propose that Bose-Einstein (BE) and Fermi-Dirac (FD) distributions may be unified by the nonlinear quantum equation. Further, the unified quantum statistics and possible violation of Pauli exclusion principle (PEP) at high energy are researched. Third, we propose a possibility of entropy decrease due to internal interactions in some isolated systems, in particular, for quantum statistics. Fourth, we discuss a new type of soliton equation, whose solutions may describe some statistical distributions. Finally, the moderate input negative entropy flow for open systems, etc., are investigated.
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Quantum Statistics; Entropy; Nonlinearity; Equation; Pauli Exclusion Principle

A.V.Nikulov and D.P.Sheehan, Ed. Entropy. 6(2004),1-232.

A.K.Pattanayak, D.W.C.Brooks, A.de la Fuente, et al. Coarse-grained entropy decrease and phase-space focusing in Hamiltonian dynamics. Phys.Rev. A72(2005),013406.

Y.Shokef, G.Shulkind and D.Levine, Isolated nonequilibrium systems in contact. Phys.Rev. E76(2007), 030101(R).

N.Erez, G.Gordon, M.Nest and G.Kurizki, Thermodynamic control by frequent quantum measurements. Nature. 452(2008), 724-727.

W.Bernard and H.B.Callen, Irreversible thermodynamics of nonlinear processes and noise in driven systems. Rev.Mod.Phys. 31(1959), 4,1017-1044.

F.Schlögl, Mixing distance and stability of steady states in statistical nonlinear thermodynamics. Zeitschrift für Physik B Condensed Matter. 25(1976),4,411-421.

T.Dauxois, M.Peyrard and A.R.Bishop, Dynamics and thermodynamics of a nonlinear model for DNA denaturation. Phys.Rev. E47(1993), 1,684-695.

Y.F.Zhang(Y.F.Chang), A nonlinear dynamical model of formation of binary stars from a nebula. Chinese Astron.Astrophys.(UK). 24(2000), 3,269-274.

Yi-Fang Chang, Hydrodynamics and a nonlinear dynamical formation model on binary stars. Phys.Scr. 76(2007), 4,385-387.

Yi-Fang Chang, Lorenz model and plane general relativity model on formulation of binary stars. Int.J.Modern Theoretical Phys. 2(2013), 1,1-12.

Yi-Fang Chang, New Research of Particle Physics and Relativity (Yunnan Science and Technology Press. 1989). Phys.Abst. 93,1371(1990).

Yi-Fang Chang, Nonlinear Quantum Theory, Development of the Superposition Principle and Possible Tests. arXiv:0904.0486.

Yi-Fang Chang, Research of nonlinear dynamical system on earthquake. Exploration of Nature (China). 16(1997),3,51-55.

Yi-Fang Chang, Nonlinear dynamics, magnitude-period formula and forecasts on earthquake. arXiv:0802.0225.

Yi-Fang Chang, Nonlinear dynamics, magnitude-period formula and new research on earthquake. Int.J.Sciences. 1, 2012.11, 1-9.

W.Pauli, Pauli Lectures on Physics: 5. Wave Mechanics. (The MIT Press. 1973).

W.Heisenberg, Quantum theory of fields and elementary particles. Rev.Mod.Phys. 29(1957), 269-278.

Yi-Fang Chang, High energy behavious of particles and unified statistics. Hadronic J. 7(1984), 1118-1133.

Yi-Fang Chang, Some possible tests of the inapplicability of Pauli’s exclusion principle. Hadronic J. 7(1984), 1469-1473.

R.M.Santilli, On a possible Lie-admissible covering of the Galilei relativity in Newtonian mechanics for nonconservative and Galilei form-noninvariant systems. Hadronic J. 1(1978), 223-423.

C.N.Ktorides, H.C.Myung and R.M.Santilli, Elaboration of the recently proposed test of Pauli’s principle under strong interactions. Phys.Rev. D22(1980), 892-907.

O.W.Greenberg and R.N.Mohapatra, Local quantum field theory of possible violation of the Pauli principle. Phys.Rev.Lett., 59(1987), 2507-2510.

V.N.Gavrin, A.Yu.Ignatiev and V.A.Kuzmin, Search for small violation of the Pauli principle. Phys.Lett. B206(1988), 343-345.

O.W.Greenberg and R.N.Mohapatra, Phenomenology of small violations of Fermi and Bose statistics. Phys.Rev. D39(1989), 2032-2038.

Yi-Fang Chang, The nonlinear quantum theory and possible violation of the Pauli exclusion principle. In Proc.of the 4th Asia-Pacific Phys.Conf. V2. Ahn,S.H. et al., Ed. (World Scientific. 1991). 1483-1486.

Yi-Fang Chang, Various theories relevant to possible violation of the Pauli principle. In Hadronic Mechanics and Nonpotential Interactions, Par2. Myung,H.C. Ed. (Nova Science Publishers,Inc. 1992). 169-175.

Yi-Fang Chang, Test of Pauli’s exclusion principle in particle physics, astrophysics and other fields. Hadronic J. 22(1999), 257-268.

H.Rinneberg, J.Neukammer, G.Jonsson, et al. High-n Rydberg atoms and external fields. Phys.Rev.Lett. 55(1985), 382-385.

X.Ling, B.G.Lindsay, K.A.Smith, et al. Rydberg-atom collisions with SF and CC at very high n. Phys.Rev. A45(1992), 242-246.

M.T.Frey, S.B.Hill, X.Ling, et al. Inelastic electron–dipole-molecule scattering at sub-milli- electron-volt energies: Possible role of dipole-supported states. Phys.Rev. A50(1994), 3124-3128.

X.Zhang, J.M.Smith and J.C.Knee, High resolution threshold photoelectron spectroscopy of aniline and aniline van der Waals complexes. J.Chem.Phys. 97(1992), 2843-2850.

A.Mank, T.Nguyen, J.D.D.Martin, et al. Zero-kinetic-energy electron spectroscopy of the predissociating AΣ+ state of HBr+. Phys.Rev. A51(1995), R1-R4.

A.Smerzi, Quantum corrections to the Thomas-Fermi theory for fractional statistics particles. Phys.Rev.Lett. 76(1996), 559-562.

R.N.Mahapatra, Infinite statistics and a possible small violation of the Pauli principle. Phys.Lett. B242(1990), 407-411.

LEPS Collaboration, T.Nakano, et al. Evidence for a narrow S=+1 baryons resonance in photoproduction from the neutron. Phys.Rev.Lett. 91(2003), 012002.

BES Collaboration, J.S.Bai, et al. Observation of a near-threshold enhancement in the pp mass spectum from radiative decays. Phys.Rev.Lett. 91(2003), 022001.

CLAS Collaboration, S.Stepanyan, et al. Observation of an exotic S=+1 baryon in exclusive photoproduction from the deuteron. Phys.Rev.Lett. 91(2003), 252002.

Yi-Fang Chang, Internal mechanism of isolated systems and new research on limitations of second law of thermodynamics. In Entropy, Information and Intersecting Science. Yu C.Z. et al., Ed. (Yunnan Univ. Press. 1994). p53-60.

Yi-Fang Chang, Possible decrease of entropy due to internal interactions in isolated systems. Apeiron. 4(1997), 97-99.

Yi-Fang Chang, Entropy, fluctuation magnified and internal interactions. Entropy. 7(2005), 190-198.

Yi-Fang Chang, “Negative temperature” fallacy, sufficient-necessary condition on entropy decrease in isolated systems and some possible tests in physics, chemistry and biology. Int.Rev.Phys. 6(2012), 469-476.

L.D.Landau and E.M.Lifshitz, Statistical Physics. (Pergamon Press. 1980).

L.E.Reichl, A Modern Course in Statistical Physics. (Univ.of Texas Press. 1980).

S.Eliezer and R.M.Weiner, Phase transitions of second and zero kind in high-energy physics: A phenomenological field-theoretical approach. σ model and superfluidity of hadronic matter. Phys.Rev. D13(1976), 87-94.

H.Haken, Synergetics. An introduction. (Springer-Verlag. 1977).

Yi-Fang Chang, Decrease of Entropy and Chemical Reactions. arXiv:0807.0256.

Yi-Fang Chang. Necessary condition of decrease of entropy in isolated systems and chemical reactions. J.Xinyang Normal University. 22(2009), 1,30-34.

Yi-Fang Chang, A new soliton equation and its physical meaning. J.Yunnan University. 6(1984), 85-88.

I.Miller and M.Miller, Mathematical Statistics with Applications. 7 Ed. (Pearson Education Inc. 2004).

Yi-Fang Chang, The thought field, the thermodynamics of physiology and psychology and decrease of entropy. J.Spirituality & Paranormal Studies. 29(2006), 62-68.

Yi-Fang Chang, Nonlinear whole biology and its basic laws. Chinese Science Abstracts. 7(2001),227-228.

Yi-Fang Chang, Nonlinear whole biology and loop quantum theory applied to biology. NeuroQuantology. 10(2012), 190-197.