Laurent Nivanen scite author profile

By considering generalized logarithm and exponential functions used in nonextensive statistics, the four usual algebraic operators : addition, subtraction, product and division, are generalized. The properties of the generalized operators are investigated. Some standard properties are preserved, e.g., associativity, commutativity and existence of neutral elements. On the contrary, the distributivity law and the opposite element is no more universal within the generalized algebra.Comment: 11 pages, no figure, TeX. Reports on Mathematical Physics (2003), in pres

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Temperature and pressure in nonextensive thermostatistics

Wang

Nivanen

Méhauté

et al. 2004

Europhys. Lett.

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The definitions of the temperature in the nonextensive statistical thermodynamics based on Tsallis entropy are analyzed. A definition of pressure is proposed for nonadditive systems by using a nonadditive effective volume. The thermodynamics of nonadditive photon gas is discussed on this basis. We show that the Stefan-Boltzmann law can be preserved within nonextensive thermodynamics. PACS : 05.20.-y, 05.70.-a, 02.50.-r 1 Tsallis entropy is given by S = i p q i −1 1−q , (q ∈ R)[1]

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Nonextensive distribution and factorization of the joint probability

Wang

Pezeril

Nivanen

et al. 2002

Chaos, Solitons & Fractals

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The problem of factorization of a nonextensive probability distribution is discussed. It is shown that the correlation energy between the correlated subsystems in the canonical composite system can not be neglected even in the thermodynamic limit. In consequence, the factorization approximation should be employed carefully according to different systems. It is also shown that the zeroth law of thermodynamics can be established within the framework of the Incomplete Statistical Mechanics (ISM ).

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On the generalized entropy pseudoadditivity for complex systems

Wang

Nivanen

Méhauté

et al. 2002

J. Phys. A: Math. Gen.

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We show that Abe's general pseudoadditivity for entropy prescribed by thermal equilibrium in nonextensive systems holds not only for entropy, but also for energy. The application of this general pseudoadditivity to Tsallis entropy tells us that the factorization of the probability of a composite system into product of the probabilities of the subsystems is just a consequence of the existence of thermal equilibrium and not due to the independence of the subsystems. 05.20.-y,05.70.-a,05.90.+m 1

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Applying incomplete statistics to nonextensive systems with different q indices

Nivanen

Pezeril

Wang

et al. 2005

Chaos, Solitons & Fractals

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Laurent Nivanen

Generalized algebra within a nonextensive statistics

Temperature and pressure in nonextensive thermostatistics

Nonextensive distribution and factorization of the joint probability

On the generalized entropy pseudoadditivity for complex systems

Applying incomplete statistics to nonextensive systems with different q indices

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