Your search keyword '"Pandharipande, V."' showing total 325 results

1. Design and Development of a Broadband Planar Dipole Antenna

Author

Ahirwar, S. D., Ramakrishna, D., Pandharipande, V. M., Tsihrintzis, George A., Series Editor, Virvou, Maria, Series Editor, Jain, Lakhmi C., Series Editor, Satapathy, Suresh Chandra, editor, Raju, K. Srujan, editor, Shyamala, K., editor, Krishna, D. Rama, editor, and Favorskaya, Margarita N., editor

Published

2020

2. Variational Theory of Hot Nucleon Matter

Author

Mukherjee, Abhishek and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

We develop a variational theory of hot nuclear matter in neutron stars and supernovae. It can also be used to study charged, hot nuclear matter which may be produced in heavy-ion collisions. This theory is a generalization of the variational theory of cold nuclear and neutron star matter based on realistic models of nuclear forces and pair correlation operators. The present approach uses microcanonical ensembles and the variational principle obeyed by the free energy. In this paper we show that the correlated states of the microcanonical ensemble at a given temperature $T$ and density $\rho$ can be orthonormalized preserving their diagonal matrix elements of the Hamiltonian. This allows for the minimization of the free energy without corrections from the nonorthogonality of the correlated basis states, similar to that of the ground state energy. Samples of the microcanonical ensemble can be used to study the response, and the neutrino luminosities and opacities of hot matter. We present methods to orthonormalize the correlated states that contribute to the response of hot matter.

Published

2006

3. Superfluid Pairing in the Three Component Fermi Gas

Author

Chang, S. Y. and Pandharipande, V. R.

Subjects

Physics - Atomic Physics

Abstract

We present an analysis of the SU(3) symmetric model of the strongly interacting three component Fermi gas in the continuum space using quantum Monte Carlo techniques. Three body effects predominate in the regime of interaction strength beyond that of threshold of the three particle bound state. However, we find that there is an interval of the interaction strength where the SU(2)$\otimes$U(1) broken symmetry superfluidity is possible. For a strong enough interaction, the SU(3) symmetry is restored and the superfluidity is suppressed. Within the interval of the broken symmetry, we also find that on average the particle pairs belonging to the species with superfluid pairing remain further separated than those without the superfluid pairing correlation., Comment: 4

Published

2006

4. Regime of Validity of the Pairing Hamiltonian in the Study of Fermi Gases

Author

Chang, S. Y. and Pandharipande, V. R.

Subjects

Physics - Atomic Physics

Abstract

The ground state energy and pairing gap of the interacting Fermi gases calculated by the {\it ab initio} stochastic method are compared with those estimated from the Bardeen-Cooper-Schrieffer pairing Hamiltonian. We discuss the ingredients of this Hamiltonian in various regimes of interaction strength. In the weakly interacting ($1/ak_F <<0$) regime the BCS Hamiltonian should describe Landau quasi-particle energies and interactions, on the other hand in the strongly pairing regime, that is $1/ak_F \gtrsim 0$, it becomes part of the bare Hamiltonian. However, the bare BCS Hamiltonian is not adequate for describing atomic gases in the regime of weak to moderate interaction strength $-\infty < 1/ak_F <0$ such as $ak_F \sim -1$. PACS: 05.30.Fk, 03.75.Ss, 21.65.+f, Comment: 2 figures, 1 table

Published

2006

5. Delta Effects in Pion-Nucleon Scattering and the Strength of the Two-Pion-Exchange Three-Nucleon Interaction

Author

Pandharipande, V. R., Phillips, D. R., and van Kolck, U.

Subjects

Nuclear Theory

Abstract

We consider the relationship between P-wave pi-N scattering and the strength of the P-wave two-pion-exchange three-nucleon interaction (TPE3NI). We explain why effective theories that do not contain the delta resonance as an explicit degree of freedom tend to overestimate the strength of the TPE3NI. The overestimation can be remedied by higher-order terms in these ``delta-less'' theories, but such terms are not yet included in state-of-the-art chiral EFT calculations of the nuclear force. This suggests that these calculations can only predict the strength of the TPE3NI to an accuracy of +/-25%., Comment: 13 pages, 2 figures, uses epsf

Published

2005

6. The Moment of Inertia of the Binary Pulsar J0737-3039A: Constraining the Nuclear Equation of State

Author

Morrison, I. A., Baumgarte, T. W., Shapiro, S. L., and Pandharipande, V. R.

Subjects

Astrophysics, General Relativity and Quantum Cosmology, Nuclear Theory

Abstract

We construct numerical models of the newly discovered binary pulsar J0737-3039A, both with a fully relativistic, uniformly rotating, equilibrium code that handles arbitrary spins and in the relativistic, slow-rotation approximation. We compare results for a representative sample of viable nuclear equations of state (EOS) that span three, qualitatively different, classes of models for the description of nuclear matter. A future dynamical measurement of the neutron star's moment of inertia from pulsar timing data will impose significant constraints on the nuclear EOS. Even a moderately accurate measurement (<~ 10 %) may be able to rule out some of these competing classes. Using the measured mass, spin and moment of inertia to identify the optimal model computed from different EOSs, one can determine the pulsar's radius., Comment: 4 pages, ApJL in press

Published

2004

7. Virtual photon asymmetry for confined, interacting Dirac particles with spin symmetry

Author

Pandharipande, V. R., Paris, M. W., and Sick, I.

Subjects

Nuclear Theory

Abstract

We study the Bjorken x dependence of the virtual photon spin asymmetry in polarized deep inelastic scattering of electrons from hadrons. We use an exactly solved relativistic potential model of the hadron, treating the constituents as independent massless Dirac particles bound to an infinitely massive force center. The potential is chosen to have spin symmetry and a linear radial dependence with spherical symmetry. The effect of interactions of the struck constituent with the remainder of the target on the longitudinal photon asymmetry is demonstrated. In particular, the small-x suppression of the photon asymmetry observed in polarized deep inelastic scattering from the proton is shown to be a consequence of these interactions. The effect of p--wave components of the Dirac wave function, long known to give an important contribution to the spin of hadrons, is explicitly demonstrated through their interference with the s--wave term., Comment: 5 pages, 4 figures

Published

2004

8. Ground State Properties of Fermi Gases in the Strongly Interacting Regime

Author

Chang, S. Y. and Pandharipande, V. R.

Subjects

Physics - Atomic Physics

Abstract

The ground state energies and pairing gaps in dilute superfluid Fermi gases have now been calculated with the quantum Monte Carlo method without detailed knowledge of their wave functions. However, such knowledge is essential to predict other properties of these gases such as density matrices and pair distribution functions. We present a new and simple method to optimize the wave functions of quantum fluids using Green's function Monte Carlo method. It is used to calculate the pair distribution functions and potential energies of Fermi gases over the entire regime from atomic Bardeen-Cooper-Schrieffer superfluid to molecular Bose-Einstein condensation, spanned as the interaction strength is varied., Comment: 4 pages, 4 figures

Published

2004

9. Quantum Monte Carlo Studies of Superfluid Fermi Gases

Author

Chang, S. Y., Carlson, J., Pandharipande, V. R., and Schmidt, K. E.

Subjects

Physics - Atomic Physics

Abstract

We report results of quantum Monte Carlo calculations of the ground state of dilute Fermi gases with attractive short range two-body interactions. The strength of the interaction is varied to study different pairing regimes which are characterized by the product of the s-wave scattering length and the Fermi wave vector, $ak_F$. We report results for the ground state energy, the pairing gap $\Delta$ and the quasiparticle spectrum. In the weak coupling regime, $1/ak_F < -1$, we obtain BCS superfluid and the energy gap $\Delta$ is much smaller than the Fermi gas energy $E_{FG}$. When $ a > 0$, the interaction is strong enough to form bound molecules with energy $E_{mol}$. For $1/ak_F \gtrsim 0.5$ we find that weakly interacting composite bosons are formed in the superfluid gas with $\Delta$ and gas energy per particle approaching $|E_{mol}|/2$. In this region we seem to have Bose-Einstein condensation (BEC) of molecules. The behavior of the energy and the gap in the BCS to BEC transition region, $-0.5 < 1/ak_F < 0.5$ is discussed., Comment: 11 figures, 3 tables

Published

2004

10. Neutron Matter: A Superfluid Gas

Author

Chang, S. Y., Morales, Jr., J., Pandharipande, V. R., Ravenhall, D. G., Carlson, J., Pieper, Steven C., Wiringa, R. B., and Schmidt, K. E.

Subjects

Nuclear Theory

Abstract

We review recent progress in the theory of neutron matter with particular emphasis on its superfluid properties. Results of quantum Monte Carlo calculations of simple and realistic models of uniform superfluid neutron gas are discussed along with those of neutrons interacting in a potential well chosen to approximate neutron-rich oxygen isotopes. The properties of dilute superfluid Fermi gases that may be produced in atom traps, and their relations with neutron matter, are illustrated. The density dependence of the effective interaction between neutrons, used to describe neutron-rich systems with the mean field approximations, is also discussed., Comment: 7 pages, 2 figures

Published

2004

11. Quadratic momentum dependence in the nucleon-nucleon interaction

Author

Wiringa, R. B., Arriaga, A., and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

We investigate different choices for the quadratic momentum dependence required in nucleon-nucleon potentials to fit phase shifts in high partial-waves. In the Argonne v18 potential L**2 and (L.S)**2 operators are used to represent this dependence. The v18 potential is simple to use in many-body calculations since it has no quadratic momentum-dependent terms in S-waves. However, p**2 rather than L**2 dependence occurs naturally in meson-exchange models of nuclear forces. We construct an alternate version of the Argonne potential, designated Argonne v18pq, in which the L**2 and (L.S)**2 operators are replaced by p**2 and Qij operators, respectively. The quadratic momentum-dependent terms are smaller in the v18pq than in the v18 interaction. Results for the ground state binding energies of 3H, 3He, and 4He, obtained with the variational Monte Carlo method, are presented for both the models with and without three-nucleon interactions. We find that the nuclear wave functions obtained with the v18pq are slightly larger than those with v18 at interparticle distances < 1 fm. The two models provide essentially the same binding in the light nuclei, although the v18pq gains less attraction when a fixed three-nucleon potential is added., Comment: v.2 important corrections in tables and minor revisions in text; reference for web-posted subroutine added

Published

2003

12. Superfluid Fermi Gases with Large Scattering Length

Author

Carlson, J., Chang, S. Y., Pandharipande, V. R., and Schmidt, K. E.

Subjects

Physics - Atomic Physics, Physics - General Physics

Abstract

We report quantum Monte Carlo calculations of superfluid Fermi gases with short-range two-body attractive interactions with infinite scattering length. The energy of such gases is estimated to be $(0.44 \pm 0.01)$ times that of the noninteracting gas, and their pairing gap is approximately twice the energy per particle., Comment: 4 pages, 4 figures

Published

2003

13. Quantum Monte Carlo Calculations of Neutron Matter

Author

Carlson, J., Morales Jr, J., Pandharipande, V. R., and Ravenhall, D. G.

Subjects

Nuclear Theory

Abstract

Uniform neutron matter is approximated by a cubic box containing a finite number of neutrons, with periodic boundary conditions. We report variational and Green's function Monte Carlo calculations of the ground state of fourteen neutrons in a periodic box using the Argonne $\vep $ two-nucleon interaction at densities up to one and half times the nuclear matter density. The effects of the finite box size are estimated using variational wave functions together with cluster expansion and chain summation techniques. They are small at subnuclear densities. We discuss the expansion of the energy of low-density neutron gas in powers of its Fermi momentum. This expansion is strongly modified by the large nn scattering length, and does not begin with the Fermi-gas kinetic energy as assumed in both Skyrme and relativistic mean field theories. The leading term of neutron gas energy is ~ half the Fermi-gas kinetic energy. The quantum Monte Carlo results are also used to calibrate the accuracy of variational calculations employing Fermi hypernetted and single operator chain summation methods to study nucleon matter over a larger density range, with more realistic Hamiltonians including three-nucleon interactions., Comment: 25 pages, 10 figures

Published

2003

14. Quenching of Weak Interactions in Nucleon Matter

Author

Cowell, S. and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

We have calculated the one-body Fermi and Gamow-Teller charge-current, and vector and axial-vector neutral-current nuclear matrix elements in nucleon matter at densities of 0.08, 0.16 and 0.24 fm$^{-3}$ and proton fractions ranging from 0.2 to 0.5. The correlated states for nucleon matter are obtained by operating on Fermi-gas states by a symmetrized product of pair correlation operators determined from variational calculations with the Argonne v18 and Urbana IX two- and three-nucleon interactions. The squares of the charge current matrix elements are found to be quenched by 20 to 25 % by the short-range correlations in nucleon matter. Most of the quenching is due to spin-isospin correlations induced by the pion exchange interactions which change the isospins and spins of the nucleons. A large part of it can be related to the probability for a spin up proton quasi-particle to be a bare spin up/down proton/neutron. We also calculate the matrix elements of the nuclear Hamiltonian in the same correlated basis. These provide relatively mild effective interactions which give the variational energies in the Hartree-Fock approximation. The calculated two-nucleon effective interaction describes the spin-isospin susceptibilities of nuclear and neutron matter fairly accurately. However $\geq$ 3-body terms are necessary to reproduce the compressibility. All presented results use the simple 2-body cluster approximation to calculate the correlated basis matrix elements., Comment: submitted to PRC

Published

2002

15. Elastic e-d Scattering Data and the Deuteron Wave Function

Author

Schiavilla, R. and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

What range of momentum components in the deuteron wave function are available e d elastic scattering data sensitive to ? This question is addressed within the context of a model calculation of the deuteron form factors, based on realistic interactions and currents. It is shown that the data on the $A(q)$, $B(q)$, and $T_{20}(q)$ observables at $q \leq 6$ fm$^{-1}$ essentially probe momentum components up to $\simeq 4 m_\pi$., Comment: 5 figures

Published

2002

16. Cold Bose gases with large scattering lengths

Author

Cowell, S., Heiselberg, H., Mazets, I. E., Morales, J., Pandharipande, V. R., and Pethick, C. J.

Subjects

Condensed Matter, Nuclear Theory

Abstract

We calculate the energy and condensate fraction for a dense system of bosons interacting through an attractive short range interaction with positive s-wave scattering length $a$. At high densities, $n>>a^{-3}$, the energy per particle, chemical potential, and square of the sound speed are independent of the scattering length and proportional to $n^{2/3}$, as in Fermi systems., Comment: 4 pages, 3 figures

Published

2001

17. Realistic models of pion-exchange three-nucleon interactions

Author

Pieper, Steven C., Pandharipande, V. R., Wiringa, R. B., and Carlson, J.

Subjects

Nuclear Theory

Abstract

We present realistic models of pion-exchange three-nucleon interactions obtained by fitting the energies of all the 17 bound or narrow states of 3 <= A <= 8 nucleons, calculated with less than 2% error using the Green's function Monte Carlo method. The models contain two-pion-exchange terms due to pi-N scattering in S- and P-waves, three-pion-exchange terms due to ring diagrams with one Delta in the intermediate states, and a phenomenological repulsive term. The models have five parameters: the four strengths and the short-range cutoff. The 17 fitted energies are insufficient to determine all of them uniquely. We consider five models; they reproduce the observed energies with an rms error < 1% when used together with the Argonne v18 two-nucleon interaction. In one of the models the pi-N S-wave scattering interaction is set to zero; in all others it has the strength suggested by chiral effective field theory. One model also assumes that the pi-N P-wave scattering interaction has the strength suggested by effective field theories, and the cutoff is adjusted to fit the data. In all other models the cutoff is taken to be the same as in the AV18 interaction. The effect of relativistic boost correction is estimated. Results obtained with only Argonne v8' and v18 interactions are also reported. In addition, we present results for 7- and 8-body neutron drops in external potential wells., Comment: 36 pages, 3 figures Revised version corrects errors in A=3,4 AV18/UIX numbers

Published

2001

18. Many-body theory interpretation of deep inelastic scattering

Author

Benhar, O., Pandharipande, V. R., and Sick, I.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

We analyze data on deep inelastic scattering of electrons from the proton using ideas from standard many-body theory involving {\em bound} constituents subject to {\em interactions}. This leads us to expect, at large three-momentum transfer ${\bf{q}}$, scaling in terms of the variable $\tilde{y}=\nu-{\bf |q|}$. The response at constant ${\bf |q|}$ scales well in this variable. Interaction effects are manifestly displayed in this approach. They are illustrated in two examples., Comment: 10 pages, 4 figures

Published

2000

19. Recent Progress in Neutron Star Theory

Author

Heiselberg, H. and Pandharipande, V.

Subjects

Astrophysics, Nuclear Theory

Abstract

This review contains chapters discussing: Energy density fluctionals of nuclear matter, Many-body theory of nucleon matter, Hadronic and quark matter, Mixtures of phases in dense matter, Neutron star observations and predictions., Comment: 33 pages +13 figs., Ann. Rev. Nucl. & Part. Science, 2000

Published

2000

20. Quantum Monte Carlo calculations of A=8 nuclei

Author

Wiringa, R. B., Pieper, Steven C., Carlson, J., and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

We report quantum Monte Carlo calculations of ground and low-lying excited states for A=8 nuclei using a realistic Hamiltonian containing the Argonne v18 two-nucleon and Urbana IX three-nucleon potentials. The calculations begin with correlated eight-body wave functions that have a filled alpha-like core and four p-shell nucleons LS-coupled to the appropriate (J+/-;T) quantum numbers for the state of interest. After optimization, these variational wave functions are used as input to a Green's function Monte Carlo calculation made with a new constrained path algorithm. We find that the Hamiltonian produces an 8Be ground state that is within 2 MeV of the experimental resonance, but the other eight-body energies are progressively worse as the neutron-proton asymmetry increases. The 8Li ground state is stable against breakup into subclusters, but the 8He ground state is not. The excited state spectra are in fair agreement with experiment, with both the single-particle behavior of 8He and 8Li and the collective rotational behavior of 8Be being reproduced. We also examine energy differences in the T=1 and 2 isomultiplets and isospin-mixing matrix elements in the excited states of 8Be. Finally, we present densities, momentum distributions, and studies of the intrinsic shapes of these nuclei, with 8Be exhibiting a definite 2-alpha cluster structure., Comment: 38 pages, REVTeX, 16 color postscript figures

Published

2000

21. Kaon Condensation in Dense Matter

Author

Carlson, J., Heiselberg, H., and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

The kaon energy in neutron matter is calculated analytically with the Klein-Gordon equation, by making a Wigner-Seitz cell approximation and employing a $K^-N$ square well potential. The transition from the low density Lenz potential, proportional to scattering length, to the high density Hartree potential is found to begin at fairly low densities. Exact non-relativistic calculations of the kaon energy in a simple cubic crystal of neutrons are used to test the Wigner-Seitz and the Ericson-Ericson approximation methods. All the calculations indicate that by $\sim 4$ times nuclear matter density the Hartree limit is reached, and as the Hartree potential is less attractive, the density for kaon condensation appears to higher than previously estimated. Effects of a hypothetical repulsive core in the $K^-N$ potential are also studied., Comment: 4 pages including 2 figures

Published

1999

22. Neutron Star Structure

Author

Pethick, C. J., Akmal, A., Pandharipande, V. R., and Ravenhall, D. G.

Subjects

Astrophysics

Abstract

A review of properties of matter in the interior of neutron stars is given. Particular attention is paid to recent many-body theory calculations of the properties of dense matter. Among topics discussed are the strong increase of tensor correlations at relatively low densities, the "relativistic boost term" in the interaction, and the sensitivity of properties of neutron star models to three-body forces., Comment: To appear in the Proceedings of the 19th Texas Symposium on Relativistic Astrophysics and Cosmology, Paris, Dec. 14-18, 1998. 11 pages

Published

1999

23. Weak capture of protons by protons

Author

Schiavilla, R., Stoks, V. G. J., Gloeckle, W., Kamada, H., Nogga, A., Carlson, J., Machleidt, R., Pandharipande, V. R., Wiringa, R. B., Kievsky, A., Rosati, S., and Viviani, M.

Subjects

Nuclear Theory

Abstract

The cross section for the proton weak capture reaction $^1H(p,e^+\nu_e)^2H$ is calculated with wave functions obtained from a number of modern, realistic high-precision interactions. To minimize the uncertainty in the axial two-body current operator, its matrix element has been adjusted to reproduce the measured Gamow-Teller matrix element of tritium $\beta$ decay in model calculations using trinucleon wave functions from these interactions. A thorough analysis of the ambiguities that this procedure introduces in evaluating the two-body current contribution to the pp capture is given. Its inherent model dependence is in fact found to be very weak. The overlap integral $\Lambda^2(E=0)$ for the pp capture is predicted to be in the range 7.05--7.06, including the axial two-body current contribution, for all interactions considered., Comment: 17 pages RevTeX (twocolumn), 5 postscript figures

Published

1998

24. Quantum Monte Carlo Studies of Relativistic Effects in Light Nuclei

Author

Forest, J. L., Pandharipande, V. R., and Arriaga, A.

Subjects

Nuclear Theory

Abstract

Relativistic Hamiltonians are defined as the sum of relativistic one-body kinetic energy, two- and three-body potentials and their boost corrections. In this work we use the variational Monte Carlo method to study two kinds of relativistic effects in the binding energy of 3H and 4He. The first is due to the nonlocalities in the relativistic kinetic energy and relativistic one-pion exchange potential (OPEP), and the second is from boost interaction. The OPEP contribution is reduced by about 15% by the relativistic nonlocality, which may also have significant effects on pion exchange currents. However, almost all of this reduction is canceled by changes in the kinetic energy and other interaction terms, and the total effect of the nonlocalities on the binding energy is very small. The boost interactions, on the other hand, give repulsive contributions of 0.4 (1.9) MeV in 3H (4He) and account for 37% of the phenomenological part of the three-nucleon interaction needed in the nonrelativistic Hamiltonians., Comment: 33 pages, RevTeX, 11 PostScript figures, submitted to Physical Review C

Published

1998

25. Solar Fusion Cross Sections

Author

Adelberger, E., Austin, S., Bahcall, J., Balantekin, A., Bogaert, G., Brown, L., Buchmann, L., Cecil, F., Champagne, A., de Braeckeleer, L., Duba, C., Elliott, S., Freedman, S., Gai, M., Goldring, G., Gould, C., Gruzinov, A., Haxton, W., Heeger, K., Henley, E., Johnson, C., Kamionkowski, M., Kavanagh, R., Koonin, S., Kubodera, K., Langanke, K., Motobayashi, T., Pandharipande, V., Parker, P., Robertson, R., Rolfs, C., Sawyer, R., Shaviv, N., Shoppa, T., Snover, K., Swanson, E., Tribble, R., Turck-Chieze, S., and Wilkerson, J.

Subjects

Astrophysics, High Energy Physics - Phenomenology, Nuclear Experiment

Abstract

We review and analyze the available information for nuclear fusion cross sections that are most important for solar energy generation and solar neutrino production. We provide best values for the low-energy cross-section factors and, wherever possible, estimates of the uncertainties. We also describe the most important experiments and calculations that are required in order to improve our knowledge of solar fusion rates., Comment: LaTeX file, 48 pages (figures not included). To appear in Rev. Mod. Phys., 10/98. All authors now listed. Full postscript version with figures available at http://www.sns.ias.edu/~jnb/Papers/Preprints/nuclearfusion.html

Published

1998

26. Center-of-mass effects on the quasi-hole spectroscopic factors in the 16O(e,e'p) reaction

Author

Van Neck, D., Waroquier, M., Dieperink, A. E. L., Pieper, Steven C., and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

The spectroscopic factors for the low-lying quasi-hole states observed in the 16O(e,e'p)15N reaction are reinvestigated with a variational Monte Carlo calculation for the structure of the initial and final nucleus. A computational error in a previous report is rectified. It is shown that a proper treatment of center-of-mass motion does not lead to a reduction of the spectroscopic factor for $p$-shell quasi-hole states, but rather to a 7% enhancement. This is in agreement with analytical results obtained in the harmonic oscillator model. The center-of-mass effect worsens the discrepancy between present theoretical models and the experimentally observed single-particle strength. We discuss the present status of this problem, including some other mechanisms that may be relevant in this respect., Comment: 14 pages, no figures, uses Revtex, to be published in Phys. Rev. C 58 (1998)

Published

1998

27. The equation of state for nucleon matter and neutron star structure

Author

Akmal, A., Pandharipande, V. R., and Ravenhall, D. G.

Subjects

Nuclear Theory, Astrophysics

Abstract

Properties of dense nucleon matter and the structure of neutron stars are studied using variational chain summation methods and the new Argonne v18 two-nucleon interaction. The neutron star gravitational mass limit obtained with this interaction is 1.67 M_{solar}. Boost corrections to the two-nucleon interaction, which give the leading relativistic effect of order (v/c)^2, as well as three-nucleon interactions, are also included in the nuclear Hamiltonian. Their successive addition increases the mass limit to 1.80 and 2.20 M_{solar}. Hamiltonians including a three-nucleon interaction predict a transition in neutron star matter to a phase with neutral pion condensation at a baryon number density of 0.2 fm^{-3}. We also investigate the possibility of dense nucleon matter having an admixture of quark matter, described using the bag model equation of state. Neutron stars of 1.4 M_{solar} do not appear to have quark matter admixtures in their cores. However, the heaviest stars are predicted to have cores consisting of a quark and nucleon matter mixture. These admixtures reduce the maximum mass of neutron stars from 2.20 to 2.02 (1.91) M_{solar} for bag constant B = 200 (122) MeV/fm^3. Stars with pure quark matter in their cores are found to be unstable. We also consider the possibility that matter is maximally incompressible above an assumed density, and show that realistic models of nuclear forces limit the maximum mass of neutron stars to be below 2.5 M_{solar}. The effects of the phase transitions on the composition of neutron star matter and its adiabatic index are discussed., Comment: 39 pages RevTeX including 12 tables. 21 postscript figures. Submitted to Phys. Rev. C

Published

1998

28. Many-body theory of nuclear and neutron star matter

Author

Pandharipande, V. R., Akmal, A., and Ravenhall, D. G.

Subjects

Nuclear Theory

Abstract

We present results obtained for nuclei, nuclear and neutron star matter, and neutron star structure obtained with the recent Argonne v18 two- nucleon and Urbana IX three-nucleon interactions including relativistic boost corrections. These interactions predict that matter will undergo a transition to a spin layered phase with neutral pion condensation. We also consider the possibility of a transition to quark matter., Comment: 18 pages, 10 figures included as .eps files. To appear in "Hirschegg '98: Nuclear Astrophysics", Proc. Int. Workshop XXVI on Gross Properties of Nuclei and Nuclear Excitations, January 11-17, 1998, Hirschegg, Austria

Published

1998

29. Quantum Monte Carlo calculations of nuclei with A \leq 7

Author

Pudliner, B. S., Pandharipande, V. R., Carlson, J., Pieper, Steven C., and Wiringa, R. B.

Subjects

Nuclear Theory

Abstract

We report quantum Monte Carlo calculations of ground and low-lying excited states for nuclei with A \leq 7 using a realistic Hamiltonian containing the Argonne v18 two-nucleon and Urbana IX three-nucleon potentials. A detailed description of the Green's function Monte Carlo algorithm for systems with state-dependent potentials is given and a number of tests of its convergence and accuracy are performed. We find that the Hamiltonian being used results in ground states of both 6Li and 7Li that are stable against breakup into subclusters, but somewhat underbound compared to experiment. We also have results for 6He, 7He, and their isobaric analogs. The known excitation spectra of all these nuclei are reproduced reasonably well and we predict a number of excited states in 6He and 7He. We also present spin-polarized one-body and several different two-body density distributions. These are the first microscopic calculations that directly produce nuclear shell structure from realistic interactions that fit NN scattering data., Comment: 75 pages, 20 figures, Revtex

Published

1997

30. Beam‐tilting antenna with low profile and increased gain for 5G mobile applications.

Author

Bharath, Kunooru, Srujana Vahini, N., Dasari, Rama Krishna, Abegaonkar, Mahesh P., and PandhariPande, V. M.

Subjects

BEAM steering, ANTENNAS (Electronics), MOBILE apps, LOOP antennas, DIPOLE antennas, 5G networks

Abstract

A low‐profile beam‐tilting antenna with enhanced gain at millimeter‐wave frequency for future 5G mobile applications is designed, and measured results are presented. The mechanism of beam tilting is explained using the proposed printed rectangular loop dipole antenna (RLDA) with three directors that operate at 37 to 40 GHz. The proposed design includes a printed RLDA, one rectangular director sandwiched between two reverse L‐shape directors separated by a 0.05λ0 gap and located 0.35λ0 from the antenna. The measured results, which are well accepted with simulations, show that the antenna's main beam in the E‐plane tilts between ±20° with respect to the end‐fire direction over 37 to 40 GHz. A gain enhancement of 3 dB is obtained with no beam tilt, whereas a gain enhancement of 1.5 dB is obtained with the tilted beam in comparison to the printed RLDA. The proposed design is smaller in size, with a footprint of 10.2 mm × 5 mm (1.3λ0 × 0.64λ0). [ABSTRACT FROM AUTHOR]

Published

2024

31. Femtometer Toroidal Structures in Nuclei

Author

Forest, J. L., Pandharipande, V. R., Pieper, Steven C., Wiringa, R. B., Schiavilla, R., and Arriaga, A.

Subjects

Nuclear Theory

Abstract

The two-nucleon density distributions in states with isospin $T=0$, spin $S$=1 and projection $M_S$=0 and $\pm$1 are studied in $^2$H, $^{3,4}$He, $^{6,7}$Li and $^{16}$O. The equidensity surfaces for $M_S$=0 distributions are found to be toroidal in shape, while those of $M_S$=$\pm$1 have dumbbell shapes at large density. The dumbbell shapes are generated by rotating tori. The toroidal shapes indicate that the tensor correlations have near maximal strength at $r<2$ fm in all these nuclei. They provide new insights and simple explanations of the structure and electromagnetic form factors of the deuteron, the quasi-deuteron model, and the $dp$, $dd$ and $\alpha d$ $L$=2 ($D$-wave) components in $^3$He, $^4$He and $^6$Li. The toroidal distribution has a maximum-density diameter of $\sim$1 fm and a half-maximum density thickness of $\sim$0.9 fm. Many realistic models of nuclear forces predict these values, which are supported by the observed electromagnetic form factors of the deuteron, and also predicted by classical Skyrme effective Lagrangians, related to QCD in the limit of infinite colors. Due to the rather small size of this structure, it could have a revealing relation to certain aspects of QCD., Comment: 35 pages in REVTeX, 25 PostScript figures

Published

1996

32. Design and Development of a Broadband Planar Dipole Antenna

Author

Ahirwar, S. D., primary, Ramakrishna, D., additional, and Pandharipande, V. M., additional

Published

2019

33. Neutron Drops and Skyrme Energy-Density Functionals

Author

Pudliner, B. S., Smerzi, A., Carlson, J., Pandharipande, V. R., Pieper, Steven C., and Ravenhall, D. G.

Subjects

Nuclear Theory

Abstract

The J$^{\pi}$=0$^+$ ground state of a drop of 8 neutrons and the lowest 1/2$^-$ and 3/2$^-$ states of 7-neutron drops, all in an external well, are computed accurately with variational and Green's function Monte Carlo methods for a Hamiltonian containing the Argonne $v_{18}$ two-nucleon and Urbana IX three-nucleon potentials. These states are also calculated using Skyrme-type energy-density functionals. Commonly used functionals overestimate the central density of these drops and the spin-orbit splitting of 7-neutron drops. Improvements in the functionals are suggested.

Published

1995

34. Kaon Energies in Dense Matter

Author

Pandharipande, V. R., Pethick, C. J., and Thorsson, V.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

We discuss the role of kaon-nucleon and nucleon-nucleon correlations in kaon condensation in dense matter. Correlations raise the threshold density for kaon condensation, possibly to densities higher than those encountered in stable neutron stars., Comment: RevTeX, 11 pages, 2 PostScript figures; manuscript also available, in PostScript form, at http://www.nordita.dk/locinfo/preprints.html

Published

1995

35. Three-body correlations in few-body nuclei

Author

Arriaga, A., Pandharipande, V. R., and Wiringa, R. B.

Subjects

Nuclear Theory

Abstract

A detailed comparison of Faddeev and variational wave functions for $^3$H, calculated with realistic nuclear forces, has been made to study the form of three-body correlations in few-body nuclei. Three new three-body correlations for use in variational wave functions have been identified, which substantially reduce the difference with the Faddeev wave function. The difference between the variational upper bound and the Faddeev binding energy is reduced by half, to typically $<2\%$. These three-body correlations also produce a significant lowering of the variational binding energy for $^4$He and larger nuclei., Comment: 19 pages, 5 figures

Published

1995

36. NUCLEAR THEORY WHITE PAPER 1995

Author

Bertsch, G., Mueller, B., Negele, J., Friar, J., and Pandharipande, V.

Subjects

Nuclear Theory

Abstract

We review the accomplishments of nuclear theory during the past five years and identify the future challenges and research opportunities. [Final, substantially revised version of the nuclear theory white paper], Comment: 33 pages, LaTeX, 6 figures in uuencoded PostScript files

Published

1995

37. Quantum Monte Carlo Calculations of $A\leq6$ Nuclei

Author

Pudliner, B. S., Pandharipande, V. R., Carlson, J., and Wiringa, R. B.

Subjects

Nuclear Theory

Abstract

The energies of $^{3}H$, $^{3}He$, and $^{4}He$ ground states, the ${\frac{3}{2}}^{-}$ and ${\frac{1}{2}}^{-}$ scattering states of $^{5}He$, the ground states of $^{6}He$, $^{6}Li$, and $^{6}Be$ and the $3^{+}$ and $0^{+}$ excited states of $^{6}Li$ have been accurately calculated with the Green's function Monte Carlo method using realistic models of two- and three-nucleon interactions. The splitting of the $A=3$ isospin $T=\frac{1}{2}$ and $A=6$ isospin $T=1$, $J^{\pi} = 0^{+}$ multiplets is also studied. The observed energies and radii are generally well reproduced, however, some definite differences between theory and experiment can be identified., Comment: 12 pages, 1 figure

Published

1995

38. Variational Monte Carlo Calculations of $^3$H and $^4$He with a relativistic Hamiltonian - II

Author

Forest, J. L., Pandharipande, V. R., Carlson, J., and Schiavilla, R.

Subjects

Nuclear Theory

Abstract

In relativistic Hamiltonians the two-nucleon interaction is expressed as a sum of $\tilde{v}_{ij}$, the interaction in the ${\bf P}_{ij}=0$ rest frame, and the ``boost interaction'' $\delta v({\bf P}_{ij})$ which depends upon the total momentum ${\bf P}_{ij}$ and vanishes in the rest frame. The $\delta v$ can be regarded as a sum of four terms: $\delta v_{RE}$, $\delta v_{LC}$, $\delta v_{TP}$ and $\delta v_{QM}$; the first three originate from the relativistic energy-momentum relation, Lorentz contraction and Thomas precession, while the last is purely quantum. The contributions of $\delta v_{RE}$ and $\delta v_{LC}$ have been previously calculated with the variational Monte Carlo method for $^3$H and $^4$He. In this brief note we report the results of similar calculations for the contributions of $\delta v_{TP}$ and $\delta v_{QM}$. These are found to be rather small., Comment: 7 pages, P-94-09-079

Published

1994

39. Pedagogical Studies of Relativistic Hamiltonians

Author

Forest, J. L., Pandharipande, V. R., and Friar, J. L.

Subjects

Nuclear Theory

Abstract

Relativistic Hamiltonians are defined as the sum of relativistic one-body kinetic energies, two- and many-body interactions and their boost corrections. We review the calculation of the boost correction of the two-body interaction from commutation relations of the Poincare group and show that its important terms can be easily understood from classical relativistic mechanics. The boost corrections for scalar- and vector- meson-exchange interactions, obtained from relativistic field theory, are shown to be in agreement with the results of the classical calculation. These boost corrections are also shown to be necessary to reproduce the known results of relativistic mean-field theories. We conclude with comments on the relativistic boost operator for the wave function of a nucleus. Several of the results presented in this pedagogical article are known. We hope that a better understanding of relativistic Hamiltonians and their relation to relativistic field theory is obtained by putting them together with a few new relations., Comment: 21 pages, P-94-09-080

Published

1994

40. Many-body effects in 16O(e,e'p)

Author

Radici, M., Boffi, S., Pieper, Steven C., and Pandharipande, V. R.

Subjects

Nuclear Theory

Abstract

Effects of nucleon-nucleon correlations on exclusive $(e,e'p)$ reactions on closed-shell nuclei leading to single-hole states are studied using $^{16}O(e,e'p)^{15}N$ ($6.32$ MeV, $3/2^-$) as an example. The quasi-hole wave function, calculated from the overlap of translationally invariant many-body variational wave functions containing realistic spatial, spin and isospin correlations, seems to describe the initial state of the struck proton accurately inside the nucleus, however it is too large at the surface. The effect of short-range correlations on the final state is found to be largely cancelled by the increase in the transparency for the struck proton. It is estimated that the values of the spectroscopic factors obtained with the DWIA may increase by a few percent due to correlation effects in the final state., Comment: 21 Pages, PHY-7849-TH-94

Published

1994

41. Design of active reconfigurable wheel antenna based on PIN diodes

Author

Dasari, Rama Krishna and Pandharipande, V. M.

Published

2016

42. Quantum Monte Carlo Studies of Nuclear Ground States

Author

Pandharipande, V. R., Harakeh, M. N., editor, Koch, J. H., editor, and Scholten, O., editor

Published

1997

43. Many-Body Theory of Nuclei and Nuclear Matter

Author

Pandharipande, V. R., Vautherin, D., editor, Lenz, F., editor, and Negele, J. W., editor

Published

1990

44. Gain Enhancement of a Dual Band Antenna Using Energy Squeezing Mechanism of an ENZ Metamaterial.

Author

N., Srujana Vahini, Bharath, Kunooru, Dasari, Rama Krishna, and PandhariPande, V. M.

Subjects

ANTENNAS (Electronics), METAMATERIAL antennas, METAMATERIALS, ENERGY consumption, UNIT cell, ANTENNA radiation patterns

Abstract

Dual band antenna with pattern similarity using energy squeezing mechanism of an ENZ metamaterial is designed and experimental results are presented with simulated data. In order to achieve a high gain and pattern similarity a waveguide based ENZ metamaterial property has been adopted in to planar microstrip form at upper band. The designed dual band antenna is resonating at 4.3 GHz and 9.8 GHz frequencies with desired radiation pattern. A metamaterial unit cell with ENZ characteristics at 9.8 GHz is designed to improve the antenna performance. Permittivity and Permeability of the unit cell is characterized using Nicolson-Ross-Weir method. A dual band antenna resonating at 4.3 GHz and 9.8 GHz is designed with and without ENZ unit cell to compare the radiation characteristics. Using the ENZ material's energy squeezing mechanism, a 12 dB gain improvement is achieved in the upper band without affecting the lower band radiation characteristics. The dual band antenna with ENZ material is fabricated and measured results show good match with the simulated results. The proposed antenna size at 4.3 GHz is 0.58λ × 0.58λ × 0.02λ. [ABSTRACT FROM AUTHOR]

Published

2022

45. A W-band Compact Dual Reflector Cassegrain antenna for Monopulse Tracking Radar

Author

Nandigama, Srujana Vahini, primary, Krishna, D Rama, additional, Pandharipande, V M, additional, Pal, Tapas Kumar, additional, and Prasad, B S V, additional

Published

2019

46. Multi band Multi standard 50W high efficiency and highly linear Power Amplifier for Macro Base Stations

Author

Rao, P Appa, primary, Krishna, D Rama, additional, and Pandharipande, V M, additional

Published

2019

47. Momentum distribution and one-body density matrix in liquid3He.

Author

Fabrocini, A., Pandharipande, V. R., and Usmani, Q. N.

Published

1992

48. Quantum Monte Carlo Studies of Nuclear Ground States

Author

Pandharipande, V. R., primary

Published

1997

49. Design and Development of a Compact Rat-Race Coupler

Author

Ahirwar, S., primary, Ramakrishna, D., primary, and Pandharipande, V. M., primary

Published

2019

50. MANY-BODY THEORY OF ELECTRON-NUCLEUS SCATTERING: LIGHT NUCLEI

Author

CARLSON, J., primary, PANDHARIPANDE, V. R., additional, and SCHIAVILLA, R., additional

Published

1991