Your search keyword '"Kuo, T.-T."' showing total 657 results

1. Nucleon-anti-nucleon intruder state of Dirac equation for nucleon in deep scalar potential well

Author

Kuo, T. T. S., Kuo, T. K., Osnes, E., and Shu, S.

Subjects

Nuclear Theory

Abstract

We solve the Dirac radial equation for a nucleon in a scalar Woods-Saxon potential well of depth $V_0$ and radius $r_0$. A sequence of values for the depth and radius are considered. For shallow potentials with $-1000 MeV\lesssim V_0 < 0$ the wave functions for the positive-energy states $\Psi _+(r)$ are dominated by their nucleon component $g(r)$. But for deeper potentials with $V_0 \lesssim -1500 MeV $ the $\Psi_+(r)$s begin to have dominant anti-nucleon component $f(r)$. In particular, a special intruder state enters with wave function $\Psi_{1/2}(r)$ and energy $E_{1/2}$. We have considered several $r_0$ values between 2 and 8 fm. For $V_0 \lesssim -2000 MeV$ and the above $r_0$ values, $\Psi _{1/2}$ is the only bound positive-energy state and has its $g(r)$ closely equal to $-f(r)$, both having a narrow wave-packet shape centered around $r_0$. The $E_{1/2}$ of this state is practically independent of $V_0$ for the above $V_0$ range and obeys closely the relation $E_{1/2}=\frac{\hbar c}{r_0}$., Comment: 20 pages, 15 figures

Published

2017

2. Introduction to low-momentum effective interactions with Brown-Rho scaling and three-nucleon forces

Author

Kuo, T. T. S., Holt, J. W., and Osnes, E.

Subjects

Nuclear Theory

Abstract

Model-space effective interactions $V_{eff}$ derived from free-space nucleon-nucleon interactions $V_{NN}$ are reviewed. We employ a double decimation approach: first we extract a low-momentum interaction $V_{low-k}$ from $V_{NN}$ using a $T$-matrix equivalence decimation method. Then $V_{eff}$ is obtained from $V_{low-k}$ by way of a folded-diagram effective interaction method. For decimation momentum $\Lambda \simeq 2 fm^{-1}$, the $V_{low-k}$ interactions derived from different realistic $V_{NN}$ models are nearly model independent, and so are the resulting shell-model effective interactions. For nucleons in a low-density nuclear medium like valence nucleons near the nuclear surface, such effective interactions derived from free-space $V_{NN}$ are satisfactory in reproducing experimental nuclear properties. But it is not so for nucleons in a nuclear medium with density near or beyond nuclear matter saturation density. In this case it may be necessary to include the effects from Brown-Rho (BR) scaling of hadrons and/or three-nucleon forces $V_{3N}$, effectively changing the free-space $V_{NN}$ into a density-dependent one. The density-dependent effects from BR scaling and $V_{3N}$ are compared with those from empirical Skyrme effective interactions., Comment: 20 pages, 19 figures, Submitted to Physica Scripta Special Edition: Celebrating the 1975 Nobel Prize

Published

2015

3. Shell-model study of quadrupole collectivity in light tin isotopes

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

A realistic shell-model study is performed for neutron-deficient tin isotopes up to mass A=108. All shell-model ingredients, namely two-body matrix elements, single-particle energies, and effective charges for electric quadrupole transition operators, have been calculated by way of the many-body perturbation theory, starting from a low-momentum interaction derived from the high-precision CD-Bonn free nucleon-nucleon potential. The focus has been put on the enhanced quadrupole collectivity of these nuclei, which is testified by the observed large B(E2;0+ -> 2+)s. Our results evidence the crucial role played by the Z=50 cross-shell excitations that need to be taken into account explicitly to obtain a satisfactory theoretical description of light tin isotopes. We find also that a relevant contribution comes from the calculated neutron effective charges, whose magnitudes exceed the standard empirical values. An original double-step procedure has been introduced to reduce effectively the model space in order to overcome the computational problem., Comment: 6 pages, 6 figures, 2 tables

Published

2015

4. Stiffer EoS for Compact Star with New Scaling Law

Author

Kim, Kyungmin, Kuo, T. T. S., Lee, Hyun Kyu, Lee, Jaehyun, and Rho, Mannque

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

We present in this paper a simple and unequivocal prediction on the deformation of the compact star, that will be measured in gravity waves, with an EoS obtained in renormailzation-group implemented effective field theory anchored on scale and hidden-local symmetric Lagrangian endowed with topology change . The objective is not to offer a superior or improved EoS for compact stars but to confront with a forthcoming astrophysical observable the given model formulated in what is considered to be consistent with the premise of QCD. The model so obtained is found to satisfactorily describe the observation of a 2-solar mass neutron star with a minimum number of parameters. Specifically the observable we are considering in this paper is the tidal deformability parameter $\lambda$ (equivalently the Love number, $k_2$) in gravity waves. The merit of our prediction is that the prediction can be readily confirmed or falsified by forth-coming aLIGO and aVirgo gravity-wave observations and provide a valuable guidance for arriving at a better understanding of highly compressed baryonic matter., Comment: 5 pages, 3 figures, Revision in Abstract, section I and IV with references added. Results unchanged

Published

2014

5. Core polarization, Brown-Rho scaling and a memory of Gerry's Princeton years

Author

Kuo, T. T. S. and Holt, J. W.

Subjects

Nuclear Theory

Abstract

Core-polarization (CP) and Brown-Rho (BR) scaling were among Gerry's most favorite topics. In this contribution, we will discuss some of the early history as well as more recent work associated with these two fascinating phenomena. I (TTSK) will begin with some recollections of Princeton, where I met Gerry for the first time in 1964 and worked as his postdoc. Core polarization was in fact the first topic he assigned to me. JWH started working with Gerry at Stony Brook from 2003 and was Gerry's last student in nuclear physics. We three had teamed up well, working closely on both CP and BR scaling, particularly on the latter's connection to the anomalously-long beta-decay lifetime of carbon-14. We shall here briefly review these topics, including a recently developed new Brown-Rho scaling based on a Skyrmion half-Skyrmion two-phase model., Comment: 8 pages, 7 figures, published in Nuclear Physics A special issue in memory of Gerry Brown

Published

2014

6. Pairing and realistic shell-model interactions

Author

Covello, A., Gargano, A., and Kuo, T. T. S

Subjects

Nuclear Theory

Abstract

This paper starts with a brief historical overview of pairing in nuclei, which fulfills the purpose of properly framing the main subject. This concerns the pairing properties of a realistic shell-model effective interaction which has proved very successful in describing nuclei around doubly magic 132Sn. We focus attention on the two nuclei 134Te and 134Sn with two valence protons and neutrons, respectively. Our study brings out the key role of one particle-one hole excitations in producing a significant difference between proton and neutron pairing in this region.

Published

2012

7. Half-Skyrmions and the Equation of State for Compact-Star Matter

Author

Dong, Huan, Kuo, T. T. S., Lee, Hyun Kyu, Machleidt, R., and Rho, Mannque

Subjects

Nuclear Theory, Astrophysics - Solar and Stellar Astrophysics, High Energy Physics - Phenomenology

Abstract

The half-skyrmions that appear in dense baryonic matter when skyrmions are put on crystals modify drastically hadron properties in dense medium and affect strongly the nuclear tensor forces, thereby influencing the equation of state (EoS) of dense nuclear and asymmetric nuclear matter. The matter comprised of half skyrmions has vanishing quark condensate but non-vanishing pion decay constant and could be interpreted as a hadronic dual of strong-coupled quark matter. We infer from this observation combined with certain predictions of hidden local symmetry in low-energy hadronic interactionsa a set of new scaling laws -- called "new-BR" -- for the parameters in nuclear effective field theory controlled by renormalization-group flow. They are subjected to the EoS of symmetric and asymmetric nuclear matter, and are then applied to nuclear symmetry energies and properties of compact stars. The changeover from the skyrmion matter to a half-skyrmion matter that takes place after the cross-over density $n_{1/2}$ provides a simple and natural field theoretic explanation for the change of the EoS from soft to stiff at a density above that of nuclear matter required for compact stars as massive as $\sim 2.4M_\odot$. Cross-over density in the range $1.5n_0 \lsim n_{1/2} \lsim 2.0 n_0$ has been employed, and the possible skyrmion half-skyrmion coexistence {or cross-over} near $n_{1/2}$ is discussed. The novel structure of {the tensor forces and} the EoS obtained with the new-BR scaling is relevant for neutron-rich nuclei and compact star matter and could be studied in RIB (rare isotope beam) machines., Comment: 12 pages, 7 figures, slightly revised for PRC, in press

Published

2012

8. Effective shell-model hamiltonians from realistic nucleon-nucleon potentials within a perturbative approach

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

This paper discusses the derivation of an effective shell-model hamiltonian starting from a realistic nucleon-nucleon potential by way of perturbation theory. More precisely, we present the state of the art of this approach when the starting point is the perturbative expansion of the Q-box vertex function. Questions arising from diagrammatics, intermediate-states and order-by-order convergences, and their dependence on the chosen nucleon-nucleon potential, are discussed in detail, and the results of numerical applications for the p-shell model space starting from chiral next-to-next-to-next-to-leading order potentials are shown. Moreover, an alternative graphical method to derive the effective hamiltonian, based on the Z-box vertex function recently introduced by Suzuki et al., is applied to the case of a non-degenerate (0+2) hbaromega model space. Finally, our shell-model results are compared with the exact ones obtained from no-core shell-model calculations., Comment: 40 pages, 22 figures, 4 tables. Accepted for publication in Annals of Physics

Published

2012

9. Shell-model descriptions of mass 16-19 nuclei with chiral two- and three-nucleon interactions

Author

Dong, Huan, Kuo, T. T. S., and Holt, J. W.

Subjects

Nuclear Theory

Abstract

Shell-model calculations for several mass 16-19 nuclei are performed using the N$^3$LO two-nucleon potential $V_{2N}$ with and without the addition of an in-medium three-nucleon potential $V_{3N}^{med}$, which is a density-dependent effective two-nucleon potential recently derived from the leading-order chiral three-nucleon force $V_{3N}$ by Holt, Kaiser, and Weise. We first calculate the $V_{low-k}$ low-momentum interactions from $V_{2N}$ and $V_{3N}^{med}$. The shell-model effective interactions for both the $sd$ one-shell and $sdpf$ two-shell model spaces are then obtained from these low-momentum interactions using respectively the Lee-Suzuki and the recently developed Okamoto and Suzuki iteration methods. The effects of $V_{3N}^{med}$ to the low-lying states of $^{18}O$, $^{18}F$, $^{19}O$ and $^{19}F$ are generally small and attractive, mainly lowering the ground-state energies of these nuclei and making them in better agreements with experiments than those calculated with $V_{2N}$ alone. The excitation spectra of these nuclei are not significantly affected by $V_{3N}^{med}$. The low-lying spectra of these nuclei calculated with the $sd$ and $sdpf$ model spaces are closely similar to each other. Our shell-model calculations for $^{16}O$ indicate that the $V_{3N}^{med}$ interaction is important and desirable for the binding energy of this nucleus., Comment: 9 pages, 11 figures

Published

2011

10. Fully microscopic shell-model calculations with realistic effective hamiltonians

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

The advent of nucleon-nucleon potentials derived from chiral perturbation theory, as well as the so-called V-low-k approach to the renormalization of the strong short-range repulsion contained in the potentials, have brought renewed interest in realistic shell-model calculations. Here we focus on calculations where a fully microscopic approach is adopted. No phenomenological input is needed in these calculations, because single-particle energies, matrix elements of the two-body interaction, and matrix elements of the electromagnetic multipole operators are derived theoretically. This has been done within the framework of the time-dependent degenerate linked-diagram perturbation theory. We present results for some nuclei in different mass regions. These evidence the ability of realistic effective hamiltonians to provide an accurate description of nuclear structure properties., Comment: 6 pages, 9 figures, talk presented at INPC2010, Vancouver, July 4 -9 2010. Accepted for publication in Journal of Physics: Conference Series

Published

2011

11. Low-momentum interactions with Brown-Rho-Ericson scalings and the density dependence of the nuclear symmetry energy

Author

Dong, Huan, Kuo, T. T. S., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

We have calculated the nuclear symmetry energy $E_{sym}(\rho)$ up to densities of $4 \sim 5 \rho_0$ with the effects from the Brown-Rho (BR) and Ericson scalings for the in-medium mesons included. Using the $V_{low-k}$ low-momentum interaction with and without such scalings, the equations of state (EOS) of symmetric and asymmetric nuclear matter have been calculated using a ring-diagarm formalism where the particle-particle-hole-hole ring diagrams are included to all orders. The EOS for symmetric nuclear matter and neutron matter obtained with linear BR scaling are both overly stiff compared with the empirical constraints of Danielewicz {\it et al.} \cite{daniel02}. In contrast, satisfactory results are obtained by either using the nonlinear Ericson scaling or by adding a Skyrme-type three-nucleon force (TNF) to the unscaled $V_{low-k}$ interaction. Our results for $E_{sym}(\rho)$ obtained with the nonlinear Ericson scaling are in good agreement with the empirical values of Tsang {\it et al.} \cite{tsang09} and Li {\it et al.} \cite{li05}, while those with TNF are slightly below these values. For densities below the nuclear saturation density $\rho_0$, the results of the above calculations are nearly equivalent to each other and all in satisfactory agreement with the empirical values., Comment: 7 pages, 6 figures

Published

2011

12. Non-degenerate shell-model effective interactions from the Okamoto-Suzuki and Krenciglowa-Kuo iteration methods

Author

Dong, Huan, Kuo, T. T. S., and Holt, J. W.

Subjects

Nuclear Theory

Abstract

We present calculations of shell-model effective interactions for both degenerate and non-degenerate model spaces using the Krenciglowa-Kuo (KK) and the extended Krenciglowa-Kuo iteration method recently developed by Okamoto, Suzuki {\it et al.} (EKKO). The starting point is the low-momentum nucleon-nucleon interaction $V_{low-k}$ obtained from the N$^3$LO chiral two-nucleon interaction. The model spaces spanned by the $sd$ and $sdpf$ shells are both considered. With a solvable model, we show that both the KK and EKKO methods are convenient for deriving the effective interactions for non-degenerate model spaces. The EKKO method is especially desirable in this situation since the vertex function $\hat Z$-box employed therein is well behaved while the corresponding vertex function $\hat Q$-box employed in the Lee-Suzuki (LS) and KK methods may have singularities. The converged shell-model effective interactions given by the EKKO and KK methods are equivalent, although the former method is considerably more efficient. The degenerate $sd$-shell effective interactions given by the LS method are practically identical to those from the EKKO and KK methods. Results of the $sd$ one-shell and $sdpf$ two-shell calculations for $^{18}$O, $^{18}$F, $^{19}$O and $^{19}$F using the EKKO effective interactions are compared, and the importance of the shell-model three-nucleon forces is discussed., Comment: 10 pages, 12 figures

Published

2010

13. Fermionic-bosonic couplings in a weakly-deformed odd-mass nucleus, $^{93}_{41}$Nb

Author

Orce, J. N., Holt, J. D., Linnemann, A., McKay, C. J., Fransen, C., Jolie, J., Kuo, T. T. S., Lesher, S. R., McEllistrem, M. T., Pietralla, N., Werner, V., and Yates, S. W.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

A comprehensive decay scheme of $^{93}$Nb below 2 MeV has been constructed from information obtained with the $^{93}$Nb(n,n$^\prime$$\gamma$) and $^{94}$Zr(p,2n$\gamma$$\gamma$)$^{93}$Nb reactions. Branching ratios, lifetimes, transition multipolarities and spin assignments have been determined. From $M1$ and $E2$ strengths, fermionic-bosonic excitations of isoscalar and isovector character have been identified from the weak coupling $\pi1g_{9/2}$$\otimes$$^{92}_{40}$Zr and $\pi2p_{1/2}^{-1}$$\otimes$$^{94}_{42}$Mo configurations. A microscopic interpretation of such excitations is attained from shell-model calculations using low-momentum effective interactions., Comment: 13 pages, 5 figures

Published

2010

14. 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

15. Shell-model study of the N=82 isotonic chain with a realistic effective hamiltonian

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We have performed shell-model calculations for the even- and odd-mass N=82 isotones, focusing attention on low-energy states. The single-particle energies and effective two-body interaction have been both determined within the framework of the time-dependent degenerate linked-diagram perturbation theory, starting from a low-momentum interaction derived from the CD-Bonn nucleon-nucleon potential. In this way, no phenomenological input enters our effective Hamiltonian, whose reliability is evidenced by the good agreement between theory and experiment., Comment: 7 pages, 11 figures, 3 tables, to be published in Physical Review C

Published

2009

16. Neutron star, $\beta$-stable ring-diagram equation of state and Brown-Rho scaling

Author

Dong, Huan, Kuo, T. T. S., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

Neutron star properties, such as its mass, radius, and moment of inertia, are calculated by solving the Tolman-Oppenheimer-Volkov (TOV) equations using the ring-diagram equation of state (EOS) obtained from realistic low-momentum NN interactions $V_{low-k}$. Several NN potentials (CDBonn, Nijmegen, Argonne V18 and BonnA) have been employed to calculate the ring-diagram EOS where the particle-particle hole-hole ring diagrams are summed to all orders. The proton fractions for different radial regions of a $\beta$-stable neutron star are determined from the chemical potential conditions $\mu_n-\mu_p = \mu_e = \mu_\mu$. The neutron star masses, radii and moments of inertia given by the above potentials all tend to be too small compared with the accepted values. Our results are largely improved with the inclusion of medium corrections based on Brown-Rho scaling where the in-medium meson masses, particularly those of $\omega$, $\rho$ and $\sigma$, are slightly decreased compared with their in-vacuum values. Representative results using such medium corrected interactions are neutron star mass $M\sim 1.8 M_{\odot}$, radius $R\sim 9$ km and moment of inertia $\sim 60 M_{\odot}km^2$. The mass-radius trajectories given by the above four realistic NN potentials are by and large overlapping., Comment: 12.7 pages, 13 figures, 3 tables

Published

2009

17. 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

18. Shell-model calculations and realistic effective interactions

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

A review is presented of the development and current status of nuclear shell-model calculations in which the two-body effective interaction is derived from the free nucleon-nucleon potential. The significant progress made in this field within the last decade is emphasized, in particular as regards the so-called V-low-k approach to the renormalization of the bare nucleon-nucleon interaction. In the last part of the review we first give a survey of realistic shell-model calculations from early to present days. Then, we report recent results for neutron-rich nuclei near doubly magic 132Sn and for the whole even-mass N=82 isotonic chain. These illustrate how shell-model effective interactions derived from modern nucleon-nucleon potentials are able to provide an accurate description of nuclear structure properties., Comment: 71 pages, to be published in Progress in Particle and Nuclear Physics

Published

2008

19. Short-range correlations and shell structure of medium-mass nuclei

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

The single-particle spectrum of the two nuclei 133Sb and 101Sn is studied within the framework of the time-dependent degenerate linked-diagram perturbation theory starting from a class of onshell-equivalent realistic nucleon-nucleon potentials. These potentials are derived from the CD-Bonn interaction by using the so-called V-low-k approach with various cutoff momenta. The results obtained evidence the crucial role of short-range correlations in producing the correct 2s1d0g0h shell structure., Comment: 7 pages, 7 figures, 1 table

Published

2008

20. Shell-model studies on exotic nuclei around 132Sn

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

The study of exotic nuclei around 132Sn is a subject of current experimental and theoretical interest. Experimental information for nuclei in the vicinity of 132Sn, which have been long inaccessible to spectroscopic studies, is now available thanks to new advanced facilities and techniques. The experimental data which have been now become available for these neutron-rich nuclei may suggest a modification in the shell structure. They are, in fact, somewhat different from what one might expect by extrapolating the existing results for N<82, and as a possible explanation a change in the single-proton level scheme has been suggested. The latter would be caused by a more diffuse nuclear surface, and could be seen as a precursor of major effects which should show up at larger neutron excess. New data offer therefore the opportunity to test the shell model and look for a possible evolution of shell structure when going toward neutron drip line. This is stimulating shell-model studies in this region. Here, we present an overview of recent shell-model studies of 132Sn neighbors, focusing attention on those calculations employing realistic effective interactions., Comment: 8 pages, 4 tables, invited talk at INPC2007, Tokyo, Japan, June 3-8 2007. To be published in Nuclear Physics A

Published

2008

21. 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

22. Shell model description of the 14C dating beta decay with Brown-Rho-scaled NN interactions

Author

Holt, J. W., Brown, G. E., Kuo, T. T. S., Holt, J. D., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

We present shell model calculations for the beta-decay of the 14C ground state to the 14N ground state, treating the states of the A=14 multiplet as two 0p holes in an 16O core. We employ low-momentum nucleon-nucleon (NN) interactions derived from the realistic Bonn-B potential and find that the Gamow-Teller matrix element is too large to describe the known lifetime. By using a modified version of this potential that incorporates the effects of Brown-Rho scaling medium modifications, we find that the GT matrix element vanishes for a nuclear density around 85% that of nuclear matter. We find that the splitting between the (J,T)=(1+,0) and (J,T)=(0+,1) states in 14N is improved using the medium-modified Bonn-B potential and that the transition strengths from excited states of 14C to the 14N ground state are compatible with recent experiments., Comment: 4 pages, 5 figures Updated to include referee comments/suggestions

Published

2007

23. Low Momentum Nucleon-Nucleon Interactions and Shell-Model Calculations

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., Entem, D. R., Kuo, T. T. S., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

In the last few years, the low-momentum nucleon-nucleon (NN) interaction V-low-k derived from free-space NN potentials has been successfully used in shell-model calculations. V-low-k is a smooth potential which preserves the deuteron binding energy as well as the half-on-shell T-matrix of the original NN potential up to a momentum cutoff Lambda. In this paper we put to the test a new low-momentum NN potential derived from chiral perturbation theory at next-to-next-to-next-to-leading order with a sharp low-momentum cutoff at 2.1 fm-1. Shell-model calculations for the oxygen isotopes using effective hamiltonians derived from both types of low-momentum potential are performed. We find that the two potentials show the same perturbative behavior and yield very similar results., Comment: 8 pages, 8 figures, to be published in Physical Review C

Published

2007

24. Microscopic Restoration of Proton-Neutron Mixed Symmetry in Weakly Collective Nuclei

Author

Holt, J. D., Pietralla, N., Holt, J. W., Kuo, T. T. S., and Rainovski, G.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

Starting from the microscopic low-momentum nucleon-nucleon interaction V{low k}, we present the first systematic shell model study of magnetic moments and magnetic dipole transition strengths of the basic low-energy one-quadrupole phonon excitations in nearly-spherical nuclei. Studying in particular the even-even N=52 isotones from 92Zr to 100Cd, we find the predicted evolution of the predominantly proton-neutron non-symmetric state reveals a restoration of collective proton-neutron mixed-symmetry structure near mid-shell. This provides the first explanation for the existence of pronounced collective mixed-symmetry structures in weakly-collective nuclei., Comment: 5 Pages, 3 figures

Published

2006

25. Study of the ground-state energy of 40Ca with the CD-Bonn nucleon-nucleon potential

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We have calculated the ground-state energy of the doubly-magic nucleus 40Ca within the framework of the Goldstone expansion using the CD-Bonn nucleon-nucleon potential. The short-range repulsion of this potential has been renormalized by integrating out its high-momentum components so as to derive a low-momentum potential V-low-k defined up to a cutoff momentum Lambda. A simple criterion has been employed to establish a connection between this cutoff momentum and the size of the two-nucleon model space in the harmonic oscillator basis. This model-space truncation approach provides a reliable way to renormalize the free nucleon-nucleon potential preserving its many-body physics. The role of the 3p-3h and 4p-4h excitations in the description of the ground state of 40Ca is discussed., Comment: 4 pages, 1 figure, 1 table, to be published in Physical Review C

Published

2006

26. Nuclear matter with Brown-Rho-scaled Fermi liquid interactions

Author

Holt, Jeremy W., Brown, G. E., Holt, Jason D., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We present a description of symmetric nuclear matter within the framework of Landau Fermi liquid theory. The low momentum nucleon-nucleon interaction V(low-k) is used to calculate the effective interaction between quasiparticles on the Fermi surface, from which we extract the quasiparticle effective mass, the nuclear compression modulus, the symmetry energy, and the anomalous orbital gyromagnetic ratio. The exchange of density, spin, and isospin collective excitations is included through the Babu-Brown induced interaction, and it is found that in the absence of three-body forces the self-consistent solution to the Babu-Brown equations is in poor agreement with the empirical values for the nuclear observables. This is improved by lowering the nucleon and meson masses according to Brown-Rho scaling, essentially by including a scalar tadpole contribution to the meson and nucleon masses, as well as by scaling g_A. We suggest that modifying the masses of the exchanged mesons is equivalent to introducing a short-range three-body force, and the net result is that the Brown-Rho double decimation is accomplished all at once., Comment: 26 pages, 9 figures

Published

2006

27. Renormalized atomic interaction and quadrupole excitations of cold Fermi gas near Feshbach resonance

Author

Siu, Lai-Wa, Kuo, T. T. S., and Gelman, B. A.

Subjects

Condensed Matter - Other Condensed Matter

Abstract

We present a model space particle-hole Green's function calculation for the quadrupole excitations of cold Fermi gas near Feshbach resonance using a simple model where atoms are confined in a harmonic oscillator potential. Both the Tamm-Dancoff and random phase approximations are employed. By summing up exactly the ladder diagrams between a pair of interacting atoms to all orders, we obtain a renormalized atomic interaction which has well defined and identical limits as the scattering length tends to $\pm \infty$. The experimentally observed abrupt rise in the excitation spectrum and its associated large decay width are satisfactorily reproduced by our calculation., Comment: 4 pages, 3 figures

Published

2006

28. On the convergence of multi-channel effective interactions

Author

Wagner, M., Schaefer, B. -J., Wambach, J., Kuo, T. T. S., and Brown, G. E.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

A detailed analysis of convergence properties of the Andreozzi-Lee-Suzuki iteration method, which is used for the calculation of low-momentum effective potentials Vlowk is presented. After summarizing different modifications of the iteration method for one-flavor channel we introduce a simple model in order to study the generalization of the iteration method to multi-flavor channels. The failure of a straightforward generalization is discussed. The introduction of a channel-dependent cutoff cures the conceptual and technical problems. This novel method has already been applied successfully for realistic hyperon-nucleon interactions., Comment: 7 pages, 6 figures, REVTeX 4, discussion streamlined; accepted version for publication in Phys. Rev. C

Published

2006

29. Identification of mixed-symmetry states in an odd-mass nearly-spherical nucleus

Author

Orce, J. N., Holt, J. D., Linnemann, A., McKay, C. J., Lesher, S. R., Fransen, C., Holt, J. W., Kumar, A., Warr, N., Werner, V., Jolie, J., Kuo, T. T. S., McEllistrem, M. T., Pietralla, N., and Yates, S. W.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

The low-spin structure of 93Nb has been studied using the (n,n' gamma) reaction at neutron energies ranging from 1.5 to 3.0 MeV and the 94Zr(p,2n gamma)93Nb reaction at bombarding energies from 11.5 to 19 MeV. States at 1779.7 and 1840.6 keV, respectively, are proposed as mixed-symmetry states associated with the coupling of a proton hole in the p_1/2 orbit to the 2+_1,ms state in 94Mo. These assignments are derived from the observed M1 and E2 transition strengths to the symmetric one-phonon states, energy systematics, spins and parities, and comparison with shell model calculations., Comment: 5 pages, 3 figures

Published

2006

30. Pairing Correlations in Odd-Mass Carbon Isotopes and Effect of Pauli Principle in Particle-Core Coupling in 13C and 11Be

Author

Samana, A. R., Tarutina, T., Krmpotić, F., Hussein, M. S., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We present an exploratory study of structure of 13C, 15C, 17C and 19C, showing that the simple one-quasiparticle projected BCS (PBCS) model is capable to account for several important properties of these nuclei. Next we discuss the importance of the Pauli Principle in the particle-core models of normal-parity states in 13C and 11Be. This is done by considering the pairing interaction between nucleons moving in an over-all deformed potential. To assess the importance of pairing correlations in these light nuclei we use both the simple BCS and the PBCS approximations. We show that the Pauli Principle plays a crucial role in the parity inversion in 11Be. It is also found that the effect of the particle number conservation in relatively light and/or exotic nuclei is quite significant. Comparison of our results with several recent papers on the same subject, as well as with some experimental data, is presented., Comment: 27 pages, 9 figures, some changes and reordering for reduced the text, the conclusions remain the same ones, Nuclear Physics A in press

Published

2005

31. Nuclear Structure Calculations with Low-Momentum Potentials in a Model Space Truncation Approach

Author

Coraggio, L., Covello, A., Itaco, A. Gargano. N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We have calculated the ground-state energy of the doubly magic nuclei 4He, 16O and 40Ca within the framework of the Goldstone expansion starting from various modern nucleon-nucleon potentials. The short-range repulsion of these potentials has been renormalized by constructing a low-momentum potential V-low-k. We have studied the connection between the cutoff momemtum Lambda and the size of the harmonic oscillator space employed in the calculations. We have found a fast convergence of the results with a limited number of oscillator quanta., Comment: 6 pages, 8 figures, to be published on Physical Review C

Published

2005

32. Equation of state for asymmetric nuclear matter with infinite-order summation of ring diagrams

Author

Shamanna, J., Kuo, T. T. S., Bombaci, I., and Ray, Subhankar

Subjects

Nuclear Theory

Abstract

The particle-particle hole-hole ring-diagram summation method is employed to obtain the equation of state of asymmetric nuclear matter over a wide range of asymmetry fraction. Compared with Brueckner Hartree-Fock and model-space Brueckner Hartree-Fock calculations, this approach gives a softer equation of state, increased symmetry energy and a lower value for the incompressibility modulus which agrees quite well with the values used in the hydrodynamical model for the supernovae explosion., Comment: 14 pages, 10 figures

Published

2005

33. Low-momentum Hyperon-Nucleon Interactions

Author

Schaefer, B. -J., Wagner, M., Wambach, J., Kuo, T. T. S., and Brown, G. E.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

We present a first exploratory study for hyperon-nucleon interactions using renormalization group techniques. The effective two-body low-momentum potential V_low-k is obtained by integrating out the high-momentum components from realistic Nijmegen YN potentials. A T-matrix equivalence approach is employed, so that the low-energy phase shifts are reproduced by V_low-k up to a momentum scale Lambda ~ 500 MeV. Although the various bare Nijmegen models differ somewhat from each other, the corresponding V_low-k interactions show convergence in some channels, suggesting a possible unique YN interaction at low momenta., Comment: 4 pages, 6 figures

Published

2005

34. Low momentum shell model effective interactions with all-order core polarizations

Author

Holt, Jason D., Holt, Jeremy W., Kuo, T. T. S., Brown, G. E., and Bogner, S. K.

Subjects

Nuclear Theory

Abstract

An all-order summation of core polarization diagrams using the low-momentum nucleon-nucleon interaction, V_low-k is presented. The summation is based on the Kirson-Babu-Brown (KBB) induced interaction approach in which the vertex functions are obtained self consistently by solving a set of non-linear coupled equations. It is found that the solution of these equations is simplified by using V_low-k, which is energy independent, and by employing Green functions in the particle-particle and particle-hole channels. We have applied this approach to the sd-shell effective interactions and find that the results calculated to all orders using the KBB summation technique are remarkably similar to those of second-order perturbation theory, average differences being less than 10%., Comment: 4 pages, 4 figures

Published

2005

35. Generalized Seniority Description of Cold Fermi Gases

Author

Brown, G. E., Gelman, B. A., and Kuo, T. T. S.

Subjects

Nuclear Theory, Condensed Matter - Soft Condensed Matter, High Energy Physics - Phenomenology

Abstract

We suggest that the extension of the Racah seniority description of strongly interacting fermions in the nuclear shell model is directly generalizable to describe pairing of atoms in cold Fermi systems. We illustrate this by the fermionic pairing in the much studied cold two-component gas of Li atoms. Our pairing interaction is two orders of magnitude stronger than that used in the usual BCS approach. We also explain why the Racah scheme is less applicable to nuclei, and discuss the similarities of the strongly-coupled matter in cold fermion systems and the new form of matter found in RHIC close to T_c.

Published

2004

36. Nuclear Structure Calculations and Modern Nucleon-Nucleon Potentials

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., Kuo, T. T. S., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

We study ground-state properties of the doubly magic nuclei 4He, 16O, and 40Ca employing the Goldstone expansion and using as input four different high-quality nucleon-nucleon (NN) potentials. The short-range repulsion of these potentials is renormalized by constructing a smooth low-momentum potential V-low-k. This is used directly in a Hartree-Fock approach and corrections up to third order in the Goldstone expansion are evaluated. Comparison of the results shows that they are only slightly dependent on the choice of the NN potential., Comment: 5 pages, submitted to Physical Review C

Published

2004

37. Family of Hermitian Low-Momentum Nucleon Interactions with Phase Shift Equivalence

Author

Holt, Jason D., Kuo, T. T. S., and Brown, G. E.

Subjects

Nuclear Theory

Abstract

Using a Schmidt orthogonalization transformation, a family of Hermitian low-momentum NN interactions is derived from the non-Hermitian Lee-Suzuki (LS) low-momentum NN interaction. As special cases, our transformation reproduces the Hermitian interactions for Okubo and Andreozzi. Aside from their common preservation of the deuteron binding energy, these Hermitian interactions are shown to be phase shift equivalent, all preserving the empirical phase shifts up to decimation scale Lambda. Employing a solvable matrix model, the Hermitian interactions given by different orthogonalization transformations are studied; the interactions can be very different from each other particularly when there is a strong intruder state influence. However, because the parent LS low-momentum NN interaction is only slightly non-Hermitian, the Hermitian low-momentum nucleon interactions given by our transformations, including the Okubo and Andreozzi ones, are all rather similar to each other. Shell model matrix elements given by the LS and several Hermitian low-momentum interactions are compared., Comment: 10 pages, 7 figures

Published

2003

38. Pairing in nuclear systems with effective Gogny and V_low-k interactions

Author

Sedrakian, Armen, Kuo, T. T. S., Müther, Herbert, and Schuck, Peter

Subjects

Nuclear Theory

Abstract

The pairing properties of nuclear systems are a sensitive probe of the effective nucleon-nucleon interactions. We compare the 1S0 pairing gaps in nuclear and neutron matter derived from the phenomenological Gogny interaction and a renormalization group motivated low-momentum V_low-k interaction extracted from realistic interactions. We find that the pairing gaps predicted by these interactions are in an excellent agreement in a wide range of sub-nuclear densities. The close agreement between the predictions of the effective forces remains intact in the case where the single particle spectra in neutron and nuclear matter are renormalized within the Hartree-Fock theory., Comment: 11 pages, 2 figures, uses elsart.sty; v2: references added, Brueckner calculations for the V_low-k spectrum; v3: author name correction

Published

2003

39. Counter Terms for Low Momentum Nucleon-Nucleon Interactions

Author

Holt, Jason D., Kuo, T. T. S., Brown, G. E., and Bogner, Scott K.

Subjects

Nuclear Theory

Abstract

There is much current interest in treating low energy nuclear physics using the renormalization group (RG) and effective field theory (EFT). Inspired by this RG-EFT approach, we study a low-momentum nucleon-nucleon (NN) interaction, V_{low-k}, obtained by integrating out the fast modes down the scale ~2fm^{-1}. Since NN experiments can only determine the effective interaction in the low momentum region, our chief purpose is to find such an interaction for complex nuclei whose typical momenta lie below this scale. In this paper we find that V_{low-k} can be satisfactorily accounted for by the counter terms corresponding to a short range effective interaction. The coefficients C_n of the power series expansion C_n*k^n for the counter terms have been accurately determined and results derived from several meson-exchange NN interaction models are compared. The counter terms are found to be important for the S, P, and D partial waves. Scaling behavior of the counter terms is also studied, and we discuss the use of these methods for computing shell model matrix elements., Comment: 8 pages, 5 figures, substantially revised procedure, content, and references

Published

2003

40. Ground-state properties of closed-shell nuclei with low-momentum realistic interactions

Author

Coraggio, L., Itaco, N., Covello, A., Gargano, A., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

Ground-state properties of 16O and 40Ca are calculated with a low-momentum nucleon-nucleon potential, V-low-k, derived from the chiral N3LO interaction recently constructed by Entem and Machleidt. The smooth V-low-k is used directly in a Hartree-Fock approach, avoiding the difficulties of the Brueckner-Hartree-Fock procedure. Corrections up to third order in the Goldstone expansion are evaluated, leading to results that are in very good agreement with experiment. Convergence properties of the expansion are examined., Comment: 5 pages, 3 figures, to be published on Physical Review C

Published

2003

41. Model-independent low momentum nucleon interaction from phase shift equivalence

Author

Bogner, S. K., Kuo, T. T. S., and Schwenk, A.

Subjects

Nuclear Theory

Abstract

We present detailed results for the model-independent low momentum nucleon-nucleon interaction V_{low k}. By introducing a cutoff in momentum space, we separate the Hilbert space into a low momentum and a high momentum part. The renormalization group is used to construct the effective interaction V_{low k} in the low momentum space, starting from various high precision potential models commonly used in nuclear many-body calculations. With a cutoff in the range of $\Lambda ~ 2.1 fm^{-1}$, the new potential V_{low k} is independent of the input model, and reproduces the experimental phase shift data for corresponding laboratory energies below $E_{lab} ~ 350 MeV$, as well as the deuteron binding energy with similar accuracy as the realistic input potentials. The model independence of V_{low k} demonstrates that the physics of nucleons interacting at low momenta does not depend on details of the high momentum dynamics assumed in conventional potential models. V_{low k} does not have momentum components larger than the cutoff, and as a consequence is considerably softer than the high precision potentials. Therefore, when V_{low k} is used as microscopic input in the many-body problem, the high momentum effects in the particle-particle channel do not have to be addressed by performing a Brueckner ladder resummation or short-range correlation methods. By varying the cutoff, we study how the model independence of V_{low k} is reached in different partial waves. This provides numerical evidence for the separation of scales in the nuclear problem, and physical insight into the nature of the low momentum interaction., Comment: 32 pages, 19 figures

Published

2003

42. Low-momentum Nucleon-Nucleon Potential and Hartree-Fock Calculations

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

A low-momentum nucleon-nucleon (NN) potential V-low-k is derived from modern realistic NN potentials by integrating out the high-momentum modes. The smooth V-low-k may be used as input for nuclear structure calculations instead of the usual Brueckner G matrix. Such an approach eliminates the energy dependence one finds in the G-matrix approach, allowing this interaction to be used directly in Hartree-Fock calculations. Bulk properties of 16O have been calculated starting from different NN potentials. Our results, obtained including up to second order contributions in the Goldstone expansion, are in good agreement with experiment., Comment: 7 pages, talk presented at IX Convegno su Problemi di Fisica Nucleare Teorica, Cortona (Italy), October 9-12 2002

Published

2002

43. Realistic shell-model calculations for proton particle-neutron hole nuclei around 132Sn

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We have performed shell-model calculations for nuclei with proton particles and neutron holes around 132Sn using a realistic effective interaction derived from the CD-Bonn nucleon-nucleon potential. For the proton-neutron channel this is explicitly done in the particle-hole formalism. The calculated results are compared with the available experimental data, particular attention being focused on the proton particle-neutron hole multiplets. A very good agreement is obtained for all the four nuclei considered, 132Sb, 130Sb, 133Te and 131Sb. We predict many low-energy states which have no experimental counterpart. This may stimulate, and be helpful to, future experiments., Comment: 8 pages, 6 figures, to be published on Physical Review C

Published

2002

44. The nucleon interaction and neutron matter from the renormalization group

Author

Schwenk, A., Friman, B., Bogner, S. K., Brown, G. E., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We show that the renormalization group decimation of modern nucleon potential models to low momenta results in a unique nucleon interaction V_{low k}. This interaction is free of short-ranged singularities and can be used directly in many-body calculations. The RG scaling properties follow directly from the invariance of the scattering phase shifts. We discuss the RG treatment of Fermi liquids. The RG equation for the scattering amplitude in the two particle-hole channels is given at zero temperature. The flow equations are simplified by retaining only the leading term in an expansion in small momentum transfers. The RG flow is illustrated by first studying a system of spin-polarized fermions in a simple model. Finally, results for neutron matter are presented by employing the unique low momentum interaction V_{low k} as initial condition of the flow. The RG approach yields the amplitude for non-forward scattering, which is of great interest for calculations of transport properties and superfluid gaps in neutron star interiors. The methods used can also be applied to condensed matter systems in the absence of long-ranged interactions., Comment: 8 pages, 7 figures, Invited talk given by A.S. at 5th Int. Conf. RG 2002, Tatranska Strba (Slovakia), March, 2002, Acta Physica Slovaka in press

Published

2002

45. Microscopic Nuclear Structure Based upon a Chiral NN Potential

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., Kuo, T. T. S., Entem, D. R., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

We report on shell-model calculations employing effective interactions derived from a new realistic nucleon-nucleon (NN) potential based on chiral effective field theory. We present results for 18O, 134Te, and 210Po. Our results are in excellent agreement with experiment indicating a remarkable predictive power of the chiral NN potential for low-energy microscopic nuclear structure., Comment: 3 pages, 3 figures, to be published on Physical Review C

Published

2002

46. Low momentum nucleon-nucleon potentials with half-on-shell T-matrix equivalence

Author

Bogner, Scott, Kuo, T. T. S., and Coraggio, L.

Subjects

Nuclear Theory

Abstract

We study a method by which realistic nucleon-nucleon potentials V_NN can be reduced, in a physically equivalent way, to an effective low-momentum potential V-low-k confined within a cut-off momentum k-cut. Our effective potential is obtained using the folded-diagram method of Kuo, Lee and Ratcliff, and it is shown to preserve the half-on-shell T-matrix. Both the Andreozzi-Lee-Suzuki and the Andreozzi-Krenciglowa-Kuo iteration methods have been employed in carrying out the reduction. Calculations have been performed for the Bonn A and Paris NN potentials, using various choices for k-cut such as 2 fm-1. The deuteron binding energy, low-energy NN phase shifts, and the low-momentum half-on-shell T-matrix given by V_NN are all accurately reproduced by V-low-k. Possible applications of V-low-k directly to nuclear matter and nuclear structure calculations are discussed., Comment: 5 pages, 2 figures, talk presented by TTSK at FB16 International Conference, Taipei, Taiwan March 6-10, 2000

Published

2002

47. Modern Shell-Model Calculations

Author

Covello, A., Coraggio, L., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

We have performed shell-model calculations starting from the CD-Bonn free nucleon-nucleon NN potential and making use of a new approach for the calculation of the effective interaction. This consists in deriving from the NN potential a low-momentum effective potential V-low-k, defined within a given cut-off momentum Lambda. Being a smooth potential it can be used directly in nuclear structure calculations. To assess the practical value of this approach, we have also performed calculations within the framework of the usual Brueckner G-matrix formalism. Comparison of the calculated results between them and with the experimental data shows that the V-low-k approach represents an advantageous alternative to the use of the G-matrix., Comment: Talk given at the International Workshop on Nuclear Many-Body Problem and Sub-Nucleonic Degrees of Freedom in Nuclei, Jilin University, Changchun, China, July 2-8, 2001

Published

2001

48. Renormalization Group Equation for Low Momentum Effective Nuclear Interactions

Author

Bogner, S. K., Schwenk, A., Kuo, T. T. S., and Brown, G. E.

Subjects

Nuclear Theory

Abstract

We consider two nonperturbative methods originally used to derive shell model effective interactions in nuclei. These methods have been applied to the two nucleon sector to obtain an energy independent effective interaction V_{low k}, which preserves the low momentum half-on-shell T matrix and the deuteron pole, with a sharp cutoff imposed on all intermediate state momenta. We show that V_{low k} scales with the cutoff precisely as one expects from renormalization group arguments. This result is a step towards reformulating traditional model space many-body calculations in the language of effective field theories and the renormalization group. The numerical scaling properties of V_{low k} are observed to be in excellent agreement with our exact renormalization group equation., Comment: 14 pages, 2 figures

Published

2001

49. Shell-Model Calculations with Realistic Effective Interactions

Author

Coraggio, L., Covello, A., Gargano, A., Itaco, N., and Kuo, T. T. S.

Subjects

Nuclear Theory

Abstract

In this paper, we present some results of shell-model calculations employing effective interactions derived from the CD-Bonn free nucleon-nucleon potential. These concern 18O, 134Te, and 210Po, and are part of a comprehensive study of nuclei around doubly closed shells. Comparison of the calculated results with experimental data illustrates the degree of accuracy of modern realistic shell-model calculations., Comment: Talk presented at INPC 2001, 29 July - 3 August 2001, Berkeley (USA)

Published

2001

50. Towards a Model-Independent Low Momentum Nucleon-Nucleon Interaction

Author

Bogner, S. K., Kuo, T. T. S., Schwenk, A., Entem, D. R., and Machleidt, R.

Subjects

Nuclear Theory

Abstract

We provide evidence for a high precision model-independent low momentum nucleon-nucleon interaction. Performing a momentum-space renormalization group decimation, we find that the effective interactions constructed from various high precision nucleon-nucleon interaction models, such as the Paris, Bonn, Nijmegen, Argonne, CD Bonn and Idaho potentials, are identical. This model-independent low momentum interaction, called V_{low k}, reproduces the same phase shifts and deuteron pole as the input potential models, without ambiguous assumptions on the high momentum components, which are not constrained by low energy data and lead to model-dependent results in many-body applications. V_{low k} is energy-independent and does not necessitate the calculation of the Brueckner G matrix., Comment: 12 pages, 5 figures, minor changes and additions, to appear in Phys. Lett. B

Published

2001