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Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 1 Check directly vs data.

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Presentation on theme: "Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 1 Check directly vs data."— Presentation transcript:

1 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 1 Check directly vs data That is, apply new effective force directly to calculate nuclear properties using Hartree-Fock (as for usual well known force) Where analytic form of (e.g. H 0 + H 3 ) piece of energy functional derived from QMC is:

2 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 2 Check directly vs data That is, apply new effective force directly to calculate nuclear properties using Hartree-Fock (as for usual well known force) Where analytic form of (e.g. H 0 + H 3 ) piece of energy functional derived from QMC is: highlights scalar polarizability » 4% » 1%

3 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 3 Check directly vs data That is, apply new effective force directly to calculate nuclear properties using Hartree-Fock (as for usual well known force) – for example: In comparison with the SkM force: and full energy functional in both cases is:

4 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 4 Finite Hypernuclei with New QMC Guichon, Matevosyan, Thomas, Tsushima, to appear Relativistic Hartree only:  still well described  unbound or barely bound – big improvement

5 Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Consequences for Neutron Star New QMC model, fully relativistic, Hartree-Fock treatment Stone, Guichon, Matevosyan, Thomas, to appear

6 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 6 Recently Developed Covariant Model Built on the Same Physical Ideas Use NJL model (  ‘al symmetry) Ensure confinement through proper time regularization (following the Tübingen group) Self-consistently solve Faddeev Eqn. in mean scalar field This solves chiral collapse problem common for NJL (because of scalar polarizability again) Can test against experiment – e.g. spin-dependent EMC effect Also apply same model to NM, NQM and SQM – hence n-star

7 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 7 Observation stunned and electrified the HEP and Nuclear communities 20 years ago Nearly 1,000 papers have been generated….. What is it that alters the quark momentum in the nucleus? Classic I llustration: The EMC effect J. Ashman et al., Z. Phys. C57, 211 (1993) J. Gomez et al., Phys. Rev. D49, 4348 (1994) The EMC Effect: Nuclear PDFs

8 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 8 g 1 (A) – “Polarized EMC Effect” Calculations described here ) larger effect for polarized structure than unpolarized: mean scalar field modifies lower components of the confined quark’s Dirac wave function Spin-dependent parton distribution functions for nuclei unmeasured ( Cloet, Bentz, AWT, PRL 95 (2005) 0502302 )

9 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 9 Recent Calculations for Finite Nuclei Cloet, Bentz, Thomas, Phys. Lett., to appear 2006 (nucl-th/0605061) Spin dependent EMC effect TWICE as large as unpolarized

10 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 10 Lawley, Bentz, AWT, nucl-th/0602014 (J Phys G) Phases of Dense Matter : NM (! NQM) ! SQM

11 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 11 EOS of Dense Matter – n Star Properties Naturally leads to low mass, hybrid n stars with masses » independent of the central density

12 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 12 EOS of Dense Matter – n Star Properties N.B. Hyperons in NM phase would tend to raise transition density a little - still need to include these….

13 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 13 Mass vs Radius with Consistent Treatment of Hadron Structure and Quark Matter

14 Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 14

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