Your search keyword '"Siu, l."' showing total 6 results

1. Unitarity potentials and neutron matter at the unitary limit

Author

Dong, Huan, Siu, L. -W., Kuo, T. T. S., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

We study the equation of state of neutron matter using a family of unitarity potentials all of which are constructed to have infinite $^1S_0$ scattering lengths $a_s$. For such system, a quantity of much interest is the ratio $\xi=E_0/E_0^{free}$ where $E_0$ is the true ground-state energy of the system, and $E_0^{free}$ is that for the non-interacting system. In the limit of $a_s\to \pm \infty$, often referred to as the unitary limit, this ratio is expected to approach a universal constant, namely $\xi\sim 0.44(1)$. In the present work we calculate this ratio $\xi$ using a family of hard-core square-well potentials whose $a_s$ can be exactly obtained, thus enabling us to have many potentials of different ranges and strengths, all with infinite $a_s$. We have also calculated $\xi$ using a unitarity CDBonn potential obtained by slightly scaling its meson parameters. The ratios $\xi$ given by these different unitarity potentials are all close to each other and also remarkably close to 0.44, suggesting that the above ratio $\xi$ is indifferent to the details of the underlying interactions as long as they have infinite scattering length. A sum-rule and scaling constraint for the renormalized low-momentum interaction in neutron matter at the unitary limit is discussed., Comment: 7.5 pages, 7 figures

Published

2009

2. Low-momentum NN interactions and all-order summation of ring diagrams of symmetric nuclear matter

Author

Siu, L. -W., Holt, J. W., Kuo, T. T. S., and Brown, G. E.

Subjects

Nuclear Theory

Abstract

We study the equation of state for symmetric nuclear matter using a ring-diagram approach in which the particle-particle hole-hole ($pphh$) ring diagrams within a momentum model space of decimation scale $\Lambda$ are summed to all orders. The calculation is carried out using the renormalized low-momentum nucleon-nucleon (NN) interaction $V_{low-k}$, which is obtained from a bare NN potential by integrating out the high-momentum components beyond $\Lambda$. The bare NN potentials of CD-Bonn, Nijmegen and Idaho have been employed. The choice of $\Lambda$ and its influence on the single particle spectrum are discussed. Ring-diagram correlations at intermediate momenta ($k\simeq$ 2 fm$^{-1}$) are found to be particularly important for nuclear saturation, suggesting the necessity of using a sufficiently large decimation scale so that the above momentum region is not integrated out. Using $V_{low-k}$ with $\Lambda \sim 3$ fm$^{-1}$, we perform a ring-diagram computation with the above potentials, which all yield saturation energies $E/A$ and Fermi momenta $k_F^{(0)}$ considerably larger than the empirical values. On the other hand, similar computations with the medium-dependent Brown-Rho scaled NN potentials give satisfactory results of $E/A \simeq -15$ MeV and $k_F^{(0)}\simeq 1.4$ fm$^{-1}$. The effect of this medium dependence is well reproduced by an empirical 3-body force of the Skyrme type., Comment: 8 pages, 7 figures

Published

2009

3. Low-momentum ring diagrams of neutron matter at and near the unitary limit

Author

Siu, L. -W., Kuo, T. T. S., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

We study neutron matter at and near the unitary limit using a low-momentum ring diagram approach. By slightly tuning the meson-exchange CD-Bonn potential, neutron-neutron potentials with various $^1S_0$ scattering lengths such as $a_s=-12070fm$ and $+21fm$ are constructed. Such potentials are renormalized with rigorous procedures to give the corresponding $a_s$-equivalent low-momentum potentials $V_{low-k}$, with which the low-momentum particle-particle hole-hole ring diagrams are summed up to all orders, giving the ground state energy $E_0$ of neutron matter for various scattering lengths. At the limit of $a_s\to \pm \infty$, our calculated ratio of $E_0$ to that of the non-interacting case is found remarkably close to a constant of 0.44 over a wide range of Fermi-momenta. This result reveals an universality that is well consistent with the recent experimental and Monte-Carlo computational study on low-density cold Fermi gas at the unitary limit. The overall behavior of this ratio obtained with various scattering lengths is presented and discussed. Ring-diagram results obtained with $V_{low-k}$ and those with $G$-matrix interactions are compared., Comment: 9 pages, 7 figures

Published

2007

4. Finding The Sign Of A Function Value By Binary Cellular Automaton

Author

Chau, H. F., Xu, H., Lee, K. M., Siu, L. W., and Yan, K. K.

Subjects

Nonlinear Sciences - Cellular Automata and Lattice Gases, Condensed Matter, Computer Science - Computational Complexity

Abstract

Given a continuous function $f(x)$, suppose that the sign of $f$ only has finitely many discontinuous points in the interval $[0,1]$. We show how to use a sequence of one dimensional deterministic binary cellular automata to determine the sign of $f(\rho)$ where $\rho$ is the (number) density of 1s in an arbitrarily given bit string of finite length provided that $f$ satisfies certain technical conditions., Comment: Revtex, uses amsfonts, 10 pages

Published

2001

5. One Dimensional $n$ary Density Classification Using Two Cellular Automaton Rules

Author

Chau, H. F., Siu, L. W., and Yan, K. K.

Subjects

Nonlinear Sciences - Adaptation and Self-Organizing Systems

Abstract

Suppose each site on a one-dimensional chain with periodic boundary condition may take on any one of the states $0,1,..., n-1$, can you find out the most frequently occurring state using cellular automaton? Here, we prove that while the above density classification task cannot be resolved by a single cellular automaton, this task can be performed efficiently by applying two cellular automaton rules in succession., Comment: Revtex, 4 pages, uses amsfonts

Published

1998

6. Classifying Rational Densities Using Two One-Dimensional Cellular Automata

Author

Chau, H. F., Yan, K. K., Wan, K. Y., and Siu, L. W.

Subjects

Nonlinear Sciences - Adaptation and Self-Organizing Systems, Condensed Matter

Abstract

Given a (finite) string of zeros and ones, we report a way to determine if the number of ones is less than, greater than, or equal to a prescribed number by applying two sets of cellular automaton rules in succession. Thus, we solve the general density classification problem using cellular automaton., Comment: Revtex 3.0 using amssymb.sty and multicol.sty, 3 pages

Published

1997