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1.
Several theories of phase transitions and their inter-relations have been criticized, focusing on the problem of whether z c, the value of the fugacity corresponding to the point of condensation, is given by z s, the smallest real positive singularity of the analytic function defined by the power series using volume-independent cluster integrals, or not. The present situation has been analysed and it is made clear that none of the existing theories can give the answer to this problem. Plausibility arguments for an affirmative or negative answer are discussed.  相似文献   

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We study the analytic structure of thermodynamic functions at first-order phase transitions in systems with short-range interactions and in particular in the two-dimensional Ising model. We analyze the nature of the approximation of the d=2 system by anN × strip. Investigation of the structure of the eigenvalues of the transfer matrix in the vicinity of H=0 in the complexH plane allows us to define a new function which provides rapidly convergent approximations to the stable free energyf and its derivatives for allH 0. This new function is used for numerical calculation of the coefficients Cn in the power series expansions of the magnetizationm in the form m(H)=1 + Cn(H-H 0 )n for various H0 0. The resulting series are studied by conventional methods. We confirm recent series analysis results on the existence of the droplet model type essential singularity at H=0. Evidence is found for a spinodal at H=Hsp(Ti < 0.  相似文献   

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We study superfluid-solid zero-temperature transitions in two-dimensional lattice boson-spin models using worm-algorithm Monte Carlo simulations. We observe that such transitions are typically first order with the exception of special high-symmetry points which require fine-tuning in the Hamiltonian parameter space. We present evidence that the superfluid-checkerboard solid and superfluid-valence-bond solid transitions at half-integer filling factor are extremely weak first-order transitions and in small systems can be confused with continuous or high-symmetry points.  相似文献   

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On an example of a simple spin system with two ground states and no symmetry, we show how to control low-temperature systems near first-order phase transitions by a straightforward renormalization group argument. The method, as opposed to the Pirogov-Sinai approach, also works for complex Hamiltonians.  相似文献   

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A theory is developed to calculate the steady-state nucleation rate in the multidimensional space of variables describing a nucleus. The nucleation rate, a stationary distribution of nuclei, and the direction of the nucleus flux are calculated within this theory. The expression derived for the nucleation rate is invariant with respect to the dimensionality of the space and includes the result obtained in the one-dimensional theory. The stationary distribution function is expressed in terms of the initial physical variables. The nucleation rate is calculated using a new method that requires neither separation of the variables nor taking into account the symmetry of the diffusion matrix $\hat D$ . However, it is demonstrated that the theory is consistent only if the matrix $\hat D$ is symmetric. The symmetry of this matrix is discussed in relation to the constraints imposed on the direction of the nucleus flux. The normalization of the equilibrium distribution functions is discussed, and the relation between the multi-and one-dimensional theories is shown.  相似文献   

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We consider classical lattice models describing first-order phase transitions, and study the finite-size scaling of the magnetization and susceptibility. In order to model the effects of an actual surface in systems such as small magnetic clusters, we consider models with free boundary conditions. For a field-driven transition with two coexisting phases at the infinite-volume transition pointh=h t , we prove that the low-temperature, finite-volume magnetizationm free(L, h) per site in a cubic volume of sizeL d behaves like $$m_{free} (L,h) = \frac{{m_ + + m_ - }}{2} + \frac{{m_ + - m_ - }}{2}tanh\left[ {\frac{{m_ + - m_ - }}{2}L^d (h - h_\chi (L))} \right] + O\left( {\frac{1}{L}} \right)$$ whereh x (L) is the position of the maximum of the (finite-volume) susceptibility andm ± are the infinite-volume magnetizations ath=h t +0 andh=h t ?0, respectively. We show thath x (L) is shifted by an amount proportional to 1/L with respect to the infinite-volume transition pointh t provided the surface free energies of the two phases at the transition point are different. This should be compared with the shift for periodic boundary conditions, which for an asymmetric transition with two coexisting phases is proportional only to 1/L 2d . One can consider also other definitions of finite-volume transition points, for example, the positionh U (L) of the maximum of the so-called Binder cumulantU free(L,h). Whileh U (L) is again shifted by an amount proportional to 1/L with respect to the infinite-volume transition pointh t , its shift with respect toh χ (L) is of the much smaller order 1/L 2d . We give explicit formulas for the proportionality factors, and show that, in the leading 1/L 2d term, the relative shift is the same as that for periodic boundary conditions.  相似文献   

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A family of one-dimensional classical chiral spin models with groupG=U(N) orSU(N) is introduced, having complex nearest-neighbor interaction. TheseG×G invariant systems have self-adjoint positive transfer matrices and satisfy reflection positivity. In the case ofG=U(N), forN=1, 2, 3, sequences of first-order phase transitions are shown to occur.  相似文献   

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We consider a spin system with nearest-neighbor antiferromagnetic pair interactions in a two-dimensional lattice. We prove that the free energy of this system is differentiable with respect to the uniform external fieldh, for all temperatures and allh. This implies the absence of a first-order phase transition in this system.  相似文献   

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《Physics letters. A》1988,134(1):62-66
We present in this Letter further results which are in good agreement with our earlier observations on the critical behavior at a strong first-order phase transition. More elaborate data analysis has been used here. A quantitative measure of the strength of the transition within the context of Landau theory is also given.  相似文献   

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Joohee Lee  Qi Wang 《Physics letters. A》2008,372(19):3484-3487
The isotropic-nematic transition of nano-rod monolayers with fore-aft symmetry is second order, in stark contrast to the first-order phase transition explained by Onsager [L. Onsager, Ann. (N.Y.) Acad. Sci. 51 (1949) 627] for rods in three dimensions. Here we show that the coupling of a dipole potential to excluded volume is sufficient to re-instate a first-order phase transition of rods confined to two dimensions.  相似文献   

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The analogy between blackbody radiation and a phase equilibrium between vapor and liquid is drawn by deriving the Clapeyron equation in which the two probability distributions of blackbody radiation play the role of the two phases. The pressure of one of these distributions, which becomes negative at sufficiently high photon energies, is analogous to a negative pressure tending to break up a liquid. A similar type of critical phenomenon should be observed for blackbody radiation.  相似文献   

20.
《Nuclear Physics B》1999,554(3):697-718
We present a consistent calculation of bubble-nucleation rates in theories of two scalar fields. Our approach is based on the notion of a coarse-grained free energy that incorporates the effects of fluctuations with momenta above a given scale k. We establish the reliability of the method for a variety of two-scalar models and confirm the conclusions of previous studies in one-field theories: Langer's theory of homogeneous nucleation is applicable as long as the expansion around the semi-classical saddle point associated with tunnelling is convergent. This expansion breaks down when the exponential suppression of the rate by the saddle-point action becomes comparable to the pre-exponential factor associated with fluctuations around the saddle point. We reconfirm that Langer's theory is not applicable to the case of weakly first-order phase transitions. We also find that the same is true in general for radiatively induced first-order phase transitions. We discuss the relevance of our results for the electroweak phase transition and the metastability bound on the Higgs-boson mass.  相似文献   

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