Hans Behrinǵer scite author profile

The appearance of a convex dip in the microcanonical entropy of finite systems usually signals a first order transition. However, a convex dip also shows up in some systems with a continuous transition as, for example, in the Baxter-Wu model and in the four-state Potts model in two dimensions. We demonstrate that the appearance of a convex dip in those cases can be traced back to a finite-size effect. The properties of the dip are markedly different from those associated with a first order transition and can be understood within a microcanonical finite-size scaling theory for continuous phase transitions. Results obtained from numerical simulations corroborate the predictions of the scaling theory.

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Finite-size behaviour of the microcanonical specific heat

Behrinǵer¹,

Pleimling²,

Hueller³

2005

J. Phys. A: Math. Gen.

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Abstract. For models which exhibit a continuous phase transition in the thermodynamic limit a numerical study of small systems reveals a nonmonotonic behaviour of the microcanonical specific heat as a function of the system size. This is in contrast to a treatment in the canonical ensemble where the maximum of the specific heat increases monotonically with the size of the system. A phenomenological theory is developed which permits to describe this peculiar behaviour of the microcanonical specific heat and allows in principle the determination of microcanonical critical exponents.

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Ein neuer abbau des tetrazolrings acetylene aus substituierten 5-methyl-1H-tetrazolen

Behrinǵer¹,

Matner²

1966

Tetrahedron Letters

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Using field theory to construct hybrid particle–continuum simulation schemes with adaptive resolution for soft matter systems

Qi¹,

Behrinǵer²,

Schmid³

2013

New J. Phys.

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We develop a multiscale hybrid scheme for simulations of soft condensed matter systems, which allows one to treat the system at the particle level in selected regions of space, and at the continuum level elsewhere. It is derived systematically from an underlying particle-based model by field theoretic methods. Particles in different representation regions can switch representations on the fly, controlled by a spatially varying tuning function. As a test case, the hybrid scheme is applied to simulate colloid-polymer composites with high resolution regions close to the colloids. The hybrid simulations are significantly faster than reference simulations of a pure particle-based model, and the results are in good agreement.

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Microcanonical entropy for small magnetizations

Behrinǵer¹

2004

J. Phys. A: Math. Gen.

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Physical quantities obtained from the microcanonical entropy surfaces of classical spin systems show typical features of phase transitions already in finite systems. It is demonstrated that the singular behaviour of the microcanonically defined order parameter and susceptibility can be understood from a Taylor expansion of the entropy surface. The general form of the expansion is determined from the symmetry properties of the microcanonical entropy function with respect to the order parameter. The general findings are investigated for the four-state vector Potts model as an example of a classical spin system.

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Hans Behrinǵer

Continuous phase transitions with a convex dip in the microcanonical entropy

Finite-size behaviour of the microcanonical specific heat

Ein neuer abbau des tetrazolrings acetylene aus substituierten 5-methyl-1H-tetrazolen

Using field theory to construct hybrid particle–continuum simulation schemes with adaptive resolution for soft matter systems

Microcanonical entropy for small magnetizations

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