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Publications Willem Hendrik Dickhoff

(updated 1/7/2015)


    1.        W. H. Dickhoff, A. Faessler, J. Meyer-ter-Vehn, and H. Müther
                Pion condensation and realistic interactions.
                Phys. Rev. C23, 1154-1173 (1981).

    2.        W. H. Dickhoff, A. Faessler, J. Meyer-ter-Vehn, and H. Müther
                The quasiparticle interaction, a shield of nuclear matter against
                pion condensation.
                Nucl. Phys. A368, 445-476 (1981).

    3.        P. van Nes, W. H. A. Hesselink, W. H. Dickhoff, J. J. Ruyven,
                M. J. A. de Voigt, and H. Verheul
                A neutron decoupled from a rotating odd core in 114Sb and 116Sb.
                Nucl. Phys. A379, 35-60 (1982).

    4.        W. H. Dickhoff, A. Faessler, and H. Müther
                Multiple Δ(3,3) excitation and the binding energy of nuclear matter.
                Nucl. Phys. A389, 492-508 (1982).

    5.        W. H. Dickhoff, A. Faessler, and H. Müther
                How strong is the rho-meson exchange in the NN interaction?
                Phys. Rev. Lett. 49, 1902-1905 (1982).

    6.        W. H. Dickhoff
                The exchange of effective mesons between nucleons in nuclei.
                Nucl. Phys. A399, 287-306 (1983).

    7.        W. H. Dickhoff, A. Faessler, H. Müther, and S. S. Wu
                The screening of the particle-hole interaction to all orders.
                Nucl. Phys. A405, 534-556 (1983).

    8.        W. H. Dickhoff
                Nuclear many-body theory with inclusion of isobars : a new perspective.
                Prog. Part. Nucl. Phys. 11, 529-547 (1984).

    9.        P. Czerski, W. H. Dickhoff, A. Faessler, and H. Müther
                Local forces and the 16O reaction matrix.
                Nucl. Phys. A427, 224-234 (1984).

  10.        A. Faessler, W. H. Dickhoff, M. Trefz, and M. Rhoades-Brown
                Microscopic approach to real and imaginary part of the heavy-ion potential.
                Nucl. Phys. A428, 271c-284c (1984).

  11.        P. Czerski, W. H. Dickhoff, A. Faessler, and H. Müther
                Spin-isospin excitations in finite nuclei and nuclear matter.
                Phys. Lett. 146B, 1-6 (1984).

  12.        M. Trefz, A. Faessler, W. H. Dickhoff, and M. Rhoades-Brown
                The reaction mechanism of heavy ion scattering at intermediate energies.
                Phys. Lett. 149B, 459-464 (1984).

  13.        W. Hengeveld, K. Allaart, and W. H. Dickhoff
                Application of realistic meson-exchange forces in the broken-pair model.
                Nucl. Phys. A435, 381-396 (1985).

  14.        M. Ismail, A. Faessler, M. Trefz, and W. H. Dickhoff
                The volume and surface contributions to the ion-ion optical potential.
                J. Phys. G: Nucl. Part. Phys. 11, 763-784 (1985).

  15.        M. Trefz, A. Faessler, and W. H. Dickhoff
                Microscopic description of heavy-ion scattering in the nuclear matter picture.
                Nucl. Phys. A443, 499-524 (1985).

  16.        W. Hengeveld, W. H. Dickhoff, and K.Allaart
                Self-consistent medium polarization in RPA.
                Nucl. Phys. A451, 269-298 (1986).

  17.        P. Czerski, W. H. Dickhoff, A. Faessler, and H. Müther
               
Δ-isobars in finite nuclei and nuclear matter.
                Phys. Rev. C33, 1753-1761 (1986).

  18.        A. Tereno, H. Müther, and W. H. Dickhoff
                High-momentum phonon exchange and the effective shell-model interaction.
                J. Phys. G: Nucl. Part. Phys. 13, 463-479 (1987).

  19.        P. Czerski, H. Müther, P. K. Rath, A. Faessler, and W. H. Dickhoff
                Effective operator for the transition density.
                Nucl. Phys. A465, 189-206 (1987).

  20.        W. H. Dickhoff and H. Müther
                Self-consistent treatment of collective excitations in nuclear matter.
                Nucl. Phys. A473, 394-428 (1987).

  21.        W. H. Dickhoff, H. Müther, and A. Polls
                Self-consistent medium polarization in spin-polarized 3He.
                Phys. Rev. B36, 5138-5151 (1987).

  22.        W. H. Dickhoff
                The particle-hole interaction in finite nuclei.
                in Condensed Matter Theories, Vol.3
                edited by J. S. Arponen, R. F. Bishop, and M. Manninen
                (Plenum, New York, 1988), p. 261-267.

  23.        A. Ramos, A. Polls, and W. H. Dickhoff 
                Saturation in nuclear matter : a new perspective.
                in Condensed Matter Theories, Vol.3
                edited by J. S. Arponen, R. F. Bishop, and M. Manninen
                (Plenum, New York, 1988), p. 319-332.

  24.        W. H. Dickhoff 
                Connection between Brueckner ladders and and pairing correlations.
                Phys. Lett. 210B, 15-19 (1988).

  25.        M. G. E. Brand, K. Allaart, and W. H. Dickhoff
                Conserving RPA and the response of 48Ca.
                Phys. Lett. 214B, 483-489 (1988).

  26.        A. Ramos, W. H. Dickhoff, and A. Polls
                Hole-hole propagation and saturation.
                Phys. Lett. 219B, 15-21 (1989).

  27.        A. Polls and W. H. Dickhoff
                Collectivity and medium polarization in spin polarized
3He.
                in Spin Polarized Quantum Systems
                edited by S. Stringari
                (World Scientific, Singapore, 1989), p.109-115.

  28.        W. H. Dickhoff
                Theory of pairing for strongly correlated many-fermion systems.
                in Condensed Matter Theories, Vol.4
                edited by J. Keller
                (Plenum, New York, 1989), p.271-280.

  29.        M. G. E. Brand, W. H. Dickhoff, and K. Allaart
                Dynamical particle-hole interaction and nuclear excitations.
                in Shell Model and Nuclear Structure: Where Do We Stand?
                edited by A.Covello
                (World Scientific, Singapore, 1989), p.193-204.

  30.        W. H. Dickhoff, M. G. E. Brand, K. Allaart, A. Ramos, and A. Polls
                Single-particle strength and nuclear response functions.
                in Momentum Distributions
                edited by R. N. Silver and P. E. Sokol
                (Plenum, New York, 1989), p.345-349.

  31.        A. Ramos, A. Polls, and W. H. Dickhoff
                Single-particle properties and short-range correlations in nuclear matter.
                Nucl. Phys. A503, 1-52 (1989).

  32.        M. G. E. Brand, K. Allaart, and W. H. Dickhoff
                Nuclear response beyond mean field theory.
                Nucl. Phys. A509, 1-38 (1990).

  33.        A. Ramos, A. Polls, and W. H. Dickhoff
                Spectral functions and the momentum distribution of nuclear matter.
                in The Nuclear Equation of State
                edited by W. Greiner and H. Stocker
                NATO ASI Series B, Physics Vol. 216A
                (Plenum, New York, 1990), p.615-624.

  34.        W. H. Dickhoff, P. P. Domitrovich, A. Polls, and A. Ramos
                The foundation of the nuclear shell model.
                in Condensed Matter Theories, Vol.5
                edited by V. C. Aguilera-Navarro
                (Plenum, New York, 1990), p.275-283.

  35.        M. G. E. Brand, K. Allaart, and W. H. Dickhoff
                Nuclear response in an extended RPA formalism; an application to
48Ca.
                Prog. Part. Nucl. Phys. 24, 61-70 (1990).

  36.        W. H. Dickhoff, P. P. Domitrovich, K. Allaart, M. G. E. Brand, F. A. Muller,
                G. A. Rijsdijk, A. Polls, and A. Ramos
                Generalized spectral functions and the validity of the shell model.
                in Two nucleon emission reactions
                edited by O. Benhar and A. Fabrocini
                (ETS Editrice, Pisa, 1990), p.332-347.

  37.        A. Polls, A. Ramos, and W. H. Dickhoff
                Spectral functions and dynamic structure function in nuclear matter.
                in Two nucleon emission reactions
                edited by O. Benhar and A. Fabrocini
                (ETS Editrice, Pisa, 1990), p. 374-387.

  38.        W. H. Dickhoff, C. C. Gearhart, B. E. Vonderfecht, A. Polls, and A. Ramos
                A new state of nuclear matter.
                in Recent progress in many-body theories, Vol.2
                edited by Y. Avishai
                (Plenum, New York, 1990), p. 141-153.

  39.        A. S. Rinat and W. H. Dickhoff
                Various approaches to the linear response in the near-asymptotic regime.
                Phys. Rev. B42, 10004-10011 (1990).

  40.        A. Polls, J. Boronat, A. Ramos, and W. H. Dickhoff
                Short range correlations in nuclear matter at equilibrium.
                in Corinne 90 International workshop on particle correlations and
                interferometry in nuclear collisions
                edited by D. Ardouin
                (World Scientific, Singapore, 1990), p. 316-328.

  41.        A. Ramos, W. H. Dickhoff, and A. Polls
                Binding energy and momentum distribution of nuclear matter using Green's function       
                methods.

                Phys. Rev. C43, 2239-2253 (1991).

  42.        B. E. Vonderfecht, C. C. Gearhart, W. H. Dickhoff, A. Polls, and A. Ramos
                Bound pair states in nuclear matter.
                Phys. Lett. 253B, 1-8 (1991).

  43.        M. G. E. Brand, G. A. Rijsdijk, F. A. Muller, K. Allaart, and W. H. Dickhoff
                Fragmentation of single-particle strength and the validity of the shell model.
                Nucl. Phys. A531, 253-284 (1991).

  44.        A. Polls, A. Ramos, B. E. Vonderfecht, W. H. Dickhoff
                Short range correlations and single particle spectral functions in nuclear matter.
                in Condensed Matter Theories, Vol.6
                edited by S. Rosati and S. Fantoni
                (Plenum, New York, 1991), p. 417-428.

  45.        B. E. Vonderfecht, W. H. Dickhoff, A. Polls, and A. Ramos
                Distribution of single-particle strength due to short-range and tensor correlations.
                Phys. Rev. C44, R1265-R1268 (1991).

  46.        W. H. Dickhoff
                Fermi liquid an
d "QCD" aspects of the nucleus.
                in Recent progress in many-body theories, Vol.3
                edited by T.L. Ainsworth, C. E. Campbell, B. E. Clements, and E. Krotscheck
                (Plenum, New York, 1992), p. 15-28.

  47.        W. H. Dickhoff and H. Müther
                Nucleon properties in the nuclear medium.
                Rep. Prog. Phys. 55, 1947-2023 (1992).

  48.        G. A. Rijsdijk, K. Allaart, and W. H. Dickhoff
                Hole spectral functions and collective excitations.
                Nucl. Phys. A550, 159-178 (1992).

  49.        B. E. Vonderfecht, W. H. Dickhoff, A. Polls, and A. Ramos
                Influence of tensor and short-range correlations on nucleon properties in the nuclear       
               medium.

                A. B. Migdal Memorial Issue,
                Nucl. Phys. A555, 1-32 (1993).

  50.        G. A. Rijsdijk, W. J. W. Geurts, M. G. E. Brand, K. Allaart, and W. H. Dickhoff
                Spin-isospin strength and spectral functions.
                Phys. Rev. C48, 1752-1764 (1993).

  51.        W. H. Dickhoff
                A nucleon in the nuclear medium: a tale of all energies.
                Phys. Reports 242, 119-137 (1994).

  52.        P. Czerski, H. Müther, and W. H. Dickhoff
                Effective local interactions and the equation of state for nuclear matter and finite nuclei.
                J. Phys. G: Nucl. Part. Phys. 20, 425-440 (1994).

  53.        H. Müther and W. H. Dickhoff
                Single-particle spectral function of 
16O.
                Phys. Rev. C49, R17-R20 (1994).

  54.        A. Polls, A. Ramos, J. Ventura, S. Amari, and W. H. Dickhoff
                Energy weighted sum rules for spectral functions in nuclear matter.
                Phys. Rev. C49, 3050-3054 (1994).

  55.        W. H. Dickhoff
                Nonlinear aspects of nuclear many-body theory.
                in 2nd IMACS Conference on Computational Physics
                edited by J. Potvin 
                (World Scientific, Singapore, 1994) p. 107-109.

                Int. J. Mod. Phys. C5, 285-287 (1994).

  56.        W. J. W. Geurts, K. Allaart, and W. H. Dickhoff
                Gamow-Teller (p,n) and (n,p) strength in a dressed extended random phase 
               approximation.

                Phys. Rev. C50, 514-517 (1994).

  57.        W. H. Dickhoff, C. C. Gearhart, J. Yuan, A. Polls, and A. Ramos
                New developments with self-consistent Green's functions.
                in Condensed Matter Theories, Vol. 10
                edited by M. Casas, M. de Llano, J. Navarro, and A. Polls
                (Nova Science Publishers, Commack, NY, 1995), p. 349-364.

  58.        A. Ramos, A. Polls, C. C. Gearhart, and W. H. Dickhoff
                A self-consistent description of nuclear matter.
                in Condensed Matter Theories, Vol. 10
                edited by M. Casas, M. de Llano, J. Navarro, and A. Polls
                (Nova Science Publishers, Commack, NY, 1995), p. 133-146.

  59.        H. Müther, A. Polls, and W. H. Dickhoff
                Momentum and energy distributions of nucleons in finite nuclei due to short-range 
                correlations.

                Phys. Rev. C51, 3040-3051 (1995).

  60.        A. Polls, A. Ramos, C. C. Gearhart, W. H. Dickhoff, and H. Müther
                Short range correlations and spectral functions for nuclear matter and finite nuclei.
                Prog. Part. Nucl. Phys. 34, 371-380 (1995).

  61.        A. Polls, H. Müther, and W. H. Dickhoff
                Short-range correlations and the one-body density matrix in finite nuclei.
                Nucl. Phys. A594, 117-136 (1995).

  62.        A. Polls, H. Müther, and W. H. Dickhoff
                Single particle spectral function for finite nuclei.
                Few-Body Systems Suppl. 8, 54-59 (1995).

  63.        H. Müther, A. Polls, and W. H. Dickhoff
                Correlations and the momentum distribution in nuclei.
                Proc. 2nd Workshop on "Electromagnetically induced two-nucleon emission"
                edited by J. Ryckebusch and M. Waroquier
                (University of Gent, 1995), p. 87-100.

  64.        W. J. W. Geurts, K. Allaart, H. Müther, and W. H. Dickhoff
                Two-proton spectral functions for
16O.
                Proc. 2nd Workshop on "Electromagnetically induced two-nucleon emission"
                edited by J. Ryckebusch and M. Waroquier
                (University of Gent, 1995), p. 275-280.

  65.        C. C. Gearhart, W. H. Dickhoff, A. Polls, and A. Ramos
                Some consequences of dressing nucleons.
                Int. J. Mod. Phys. E5, 461-487 (1996).

  66.        G. A. Rijsdijk, W. J. W. Geurts, K. Allaart, and W. H. Dickhoff
                Hole spectral function and two-particle-one-hole response propagator.
                Phys. Rev. C53, 201-213 (1996).

  67.        W. H. Dickhoff, C. C. Gearhart, A. Polls, A. Ramos, W. J. W. Geurts,
                K. Allaart, and H. Müther
                One- and two-nucleon removal and short-range correlations.
                in Perspectives in Nuclear Physics at Intermediate Energies
                edited by S. Boffi, C. Ciofi degli Atti, and M. M. Giannini
                (World Scientific, Singapore, 1996), p. 296-307.

  68.        A. Polls, H. Müther, and W. H. Dickhoff
                Short-range correlations and the one-body density matrix in
16O.
                in Perspectives in Nuclear Physics at Intermediate Energies
                edited by S. Boffi, C. Ciofi degli Atti, and M. M. Giannini
                (World Scientific, Singapore, 1996), p. 308-320.

  69.        W. J. W. Geurts, K. Allaart, W. H. Dickhoff, and H. Müther
                Spectroscopic factors for nucleon knock-out from
16O at small missing energy.
                Phys. Rev. C53, 2207-2212 (1996).

  70.        W. J. W. Geurts, K. Allaart, W. H. Dickhoff, and H. Müther
                Two-nucleon spectral function of
16O at high momenta.
                Phys. Rev. C54, 1144-1157 (1996).

  71.        A. Polls, M. Radici, S. Boffi, W. H. Dickhoff, and H. Müther
                High-momentum proton removal from
16O and the (e,e'p) cross section.
                Phys. Rev. C55, 810-819 (1997).

  72.        A. Polls, M. Radici, S. Boffi, W. H. Dickhoff, and H. Müther
                Single-particle spectral functions for 16O and the (e,e'p) cross section.
                in Workshop on Electron Nucleus Scattering
                edited by O. Benhar and A. Fabrocini
                (ETS Editrice, Pisa, 1997), p. 350-362.

  73.        C. Giusti, F. D. Pacati, W. J. W. Geurts, K. Allaart, W. H. Dickhoff, and H. Müther
                Selectivity of the
16O(e,e'2p) reaction to discrete final states.
                Phys. Rev. C57, 1691-1702 (1998).

  74.        W. H. Dickhoff
                The scattering of dressed nucleons in nuclear matter.
                Phys. Rev. C58, 2807-2820 (1998).

  75.        C. J. G. Onderwater, K. Allaart, E. C. Achenauer, Th. S. Bauer,
                D. J. Boersma,  E. Cisbani, W. H. Dickhoff, S. Frullani, F. Garibaldi,    
                W. J. W. Geurts, C. Giusti, D. L. Groep, W. H. A. Hesselink, M. Iodice, 
                E. Jans, N. Kalantar-Nayestanaki, W-J. Kasdorp, C. Kormanyos,
                L. Lapikás,  J. J. van Leeuwe, R. De Leo, A. Misiejuk, H. Müther, 
                F. D. Pacati, A. R. Pellegrino, R. Perrino, R. Starink, M. Steenbakkers,
 
                G. van der Steenhoven, J. J. M. Steijger, M. A. van Uden, G. M. Urciuoli,
 
                L. B. Weinstein, and H. W. Willering

                Signatures for short-range correlations in 16O observed in the reaction
16O(e,e'pp)14C.
                Phys. Rev. Lett. 81, 2213-2216 (1998).

  76.        W. H. Dickhoff
                Scattering of dressed nucleons in the nuclear medium.
                in 9th International Conference on Recent Progress in Many-Body Theories
                edited by D. Neilson and R. F. Bishop
                (World Scientific, Singapore, 1998), p. 216-224
                Int. J. Mod. Phys. B13, 559-567 (1999).

  77.        W. H. Dickhoff
                The nucleon propagator in the nuclear medium.
                Book chapter for "Nuclear Methods and Nuclear Equation of State"
                edited by M. Baldo
                (World Scientific, Singapore, 1999) p. 326-380.

  78.        W. H. Dickhoff, C. C. Gearhart, E. P. Roth, A. Polls, and A. Ramos
                Phase shifts and in-medium cross sections for dressed nucleons in nuclear matter.
                Phys. Rev. C 60, 064319 (1999) 1-16.

  79.        R. Starink, M. F. van Batenburg, E. Cisbani, W. H. Dickhoff, S. Frullani,
                F. Garibaldi, C. Giusti, D. L. Groep, P. Heimberg, W. H. A. Hesselink,
                M. Iodice, E. Jans, L. Lapikás, R. De Leo, C. J. G. Onderwater, F. D. Pacati,
                R. Perrino, J. Ryckebusch, M. Steenbakkers, J. A. Templon, G-M. Urcioli, 

                and L. B. Weinstein
                Evidence for sho
rt-range correlations in 16O.
                Phys. Lett. B474, 33-40 (2000).

  80.        W. H. Dickhoff
                Two-nucleon propagation and interaction in the medium.
                In Proc. 4th Workshop on "Electromagnetically induced two-nucleon emission"
                edited by C. Garciá-Recio, P. Grabmayr, A. M. Lallena, and R. Owens
                (University of Granada, published on CD, ISBN:84-699-1645-9, 2000), p. 226-237.

  81.        W. H. Dickhoff
                To dress or not to dress ...
                In Proc. Conference on "150 years of Quantum Many-Body Theory" in
                honor of John Clark, Alpo Kallio, Manfred Ristig, and Sergio Rosati
                edited by R. F. Bishop, K. A. Gernoth, and N. R. Walet
                (World Scientific, Singapore, 2001), p. 127-134.

  82.        C. Barbieri and W. H. Dickhoff
               Faddeev description of two-hole one-particle motion and the single-particle spectral 
               function.

               Phys. Rev. C63, 034313, (2001) 1-12.

  83.        C. Barbieri and W. H. Dickhoff
                Faddeev approach to the study of one- and two-hole spectral functions.
                In Proc. 5th Workshop on "Electromagnetically induced two-hadron emission"
                edited by P. Grabmayr et al.
                (University of Lund, CD, ISBN: 91-631-1612-X, 2001) 108-117.

  84.        W. H. Dickhoff, E. P. Roth, and M. Radici
                Relevance of high-momentum nucleons for nuclear phenomena.
                In Proc. 5th Workshop on "Electromagnetically induced two-hadron emission"
                edited by P. Grabmayr et al.
                (University of Lund, CD, ISBN: 91-631-1612-X, 2001) 232-241.

  85.        A. Polls, W. H. Dickhoff, and H. Müther
                Two-body correlations and the one-body density matrix in finite nuclei.
                In Proc. 7th Int. Spring Seminar on Nuclear Physics, Maiori, Italy 
                “Challenges of Nuclear Structure”,               

                edited by A. Covello                        
                (World Scientific, Singapore, 2002) 157-164.


  86.        W. H. Dickhoff and E. P. Roth
                Nuclear equation of state and spectral functions.
                in  Proc. Mazurian Lakes School of Physics
                Acta Physica Polonica B 33 (2002) 65-79.

  87.        C. Barbieri and W. H. Dickhoff
                Faddeev treatment of long-range correlations and the one-hole spectral function of 
16O.
                Phys. Rev. C 65, 064313 (2002) 1-10.

  88.        M. Radici , W. H. Dickhoff, and E. Roth Stoddard
                Consistency of spectroscopic factors from (e,e'p) reactions at  different momentum 
                transfers.

                Phys. Rev. C 66,  014613 (2002) 1-13.

  89.        W. H. Dickhoff and E. P. Roth
                Saturation properties of nuclear matter and correlated nucleons.
                in 11th International Conference on Recent Progress in Many-Body Theories
                edited by R. F. Bishop et al.
                (World Scientific, Singapore, 2002), 197-206.
                Int. J. Mod. Phys. B 17 (2003), 5151-5161.

  90.        Y. Dewulf, W. H. Dickhoff, D. Van Neck, E. R. Stoddard, and M. Waroquier
                Saturation of nuclear matter and short-range correlations.
                Phys. Rev. Lett. 90, 152501 (2003), 1-4.

  91.         M. Radici, A. Meucci, and W. H. Dickhoff
                Spectroscopic information from different theoretical descriptions of (un)polarized (e,e'p)  
                reactions.

                Eur. Phys. J. A 17  (2003) 65-69.

  92.        C. Barbieri and W. H. Dickhoff
                Extension of the Random Phase Approximation including the self-consistent coupling 
                to two-phonon contributions.

                Phys. Rev. C 68,  014311 (2003)  1-14.

  93.        W. H. Dickhoff
                Properties of nucleons and their interaction in the nuclear medium.
                in the Kyudai-RCNP International Mini-Symposium on Nuclear Many-Body
                and Medium Effects in Nuclear Interactions and Reactions (MEDIUM02)
                edited by K. Hatanaka et al.
                (World Scientific, Singapore, 2003), 181-192.

  94.        C. Barbieri and W. H. Dickhoff
                Effects of nuclear fragmentation on single particle and collective motions at low energy.
                In Proc. of the "10th International Conference on Nuclear Reaction
                Mechansims," Varenna, June 2003,
                edited by E. Gadioli 
                (Ricerca Scientifica ed Educazione Permanente,
Supplemento 122), 89-98.

  95.        W. H. Dickhoff
                Correlations in nuclei – recent achievements unique to nuclear physics.
                In Proc. 6th Workshop on "Electromagnetically induced two-hadron emission"
                edited by P. Grabmayr et al.
                (University of Pavia, CD, ISBN:  2003) 1-15.

  96.        W. H. Dickhoff and C. Barbieri
                Self-consistent Green’s function method for nuclei and nuclear matter.
                Prog. Part. Nucl. Phys. 52 (2004) 377-496.

  97.        C. Barbieri, C. Giusti,, F. Pacati, and W. H. Dickhoff
                Effects of nuclear correlations on the 
16O(e,e’pN) reactions to discrete final states.
                Phys. Rev. C 70, 014606 (2004), 1-12.
 

  98.        N. J. Robertson and W. H. Dickhoff
                Correlation effects on 
Λ propagation in nuclear matter.
                Phys. Rev. C70,  044301 (2004), 1-17.

  99.        C. Barbieri and W. H. Dickhoff
                Self-consistent Green’s function theory calculation of
16O at small missing energies.
                J. Phys. G: Nucl. Part. Phys. 31 (2005), S1301-1309.

100.        N. J. Robertson and W. H. Dickhoff
                Correlation effects on the nonmesonic weak decay of the  
Λ hyperon in nuclear matter.
                Phys. Rev. C72, 024320 (2005),  1-18.

101.        W. H. Dickhoff
                 Properties of nucleons in nuclei: quantum physics at all energy scales.
                 in Condensed Matter Theories, Vol. 20 (CMT28)
                 edited by J. W. Clark, R. M. Panoff, and H. Li
                Nova Science Publishers, Commack, NY (2006), 99-108.                                               
                ISBN:1-59454-989-3

102.        W. H. Dickhoff
                Nucleon knockout experiments and configuration mixing in nuclei.
                Journal of Physics : Conference Series 20 (2005), 89-94.

103.        H. Müther and W. H. Dickhoff
                 Pairing properties of nucleonic matter employing dressed nucleons.
                 Phys. Rev. C72, 054313 (2005), 1-11.

104.        W. H. Dickhoff and H. Müther
               
Pairing properties of dressed nucleons in infinite matter.
                in Proc. INT Workshop on "Pairing in fermionic systems"
                edited by A. Sedrakian, M. Alford, and J. W. Clark,
                (World Scientific, Singapore, 2006), p. 175-200 .


105.        R. J. Charity, L. G. Sobotka, and W. H. Dickhoff

               
Asymmetry dependence of proton correlations.
                Phys. Rev. Lett. 97, 162503 (2006), 1-4.

106.        W. H. Dickhoff
                 Pairing of strongly correlated nucleons.
                 in Condensed Matter Theories, Vol. 22 (CMT30)
                 edited by H. Reinholz, G. Röpke, and M. de Llano. 
                 
(World Scientific, Singapore, 2007), p. 363-374.
                 Int. J. Mod. Phys. B21 (2007), 2395-2406.

107.        W. H. Dickhoff
                Correlations as a function of nucleon asymmetry: the lure of dripline physics.
                in 14th International Conference on Recent Progress in Many-Body Theories
                edited by J. Boronat.
                (World Scientific, Singapore, 2008), p. 148-151.


108.        R. J. Charity, J. M. Mueller, L. G. Sobotka, and W. H. Dickhoff
                A dispersive-optical-model analysis of the asymmetry dependence of correlations in Ca  
                isotopes.
                Phys. Rev. C76, 044314 (2007), 1-17.

109.        C. Barbieri, D. Van Neck, and W. H. Dickhoff
                Quasiparticles in neon using the Faddeev random-phase approximation.

                Phys. Rev. A76, 052503 (2007), 1-12.

110.        C. Barbieri and W. H. Dickhoff
                Spectroscopic factors in 16O and nucleon asymmetry.

                
Int. J. Mod. Phys. A24 (2009), 2060-2068.

111.        W. H. Dickhoff
                A secure path to the dripline based on theory and experiment.
                in Bulk Nuclear Properties, 5th ANL/MSU/JINA FRIB Workshop
                edited by P. Danielewicz 
                
AIP, Conf. Proc. 1128 (2009), 90-99.

112.        A. Rios, A. Polls, and W. H. Dickhoff
                Depletion of the nuclear Fermi sea.

                Phys. Rev. C79, 064308 (2009), 1-17.

113.        C. Barbieri, R. J. Charity, W. H. Dickhoff, and L. G. Sobotka
               Toward a global dispersive optical model for the driplines.
               in Proc. 10th Int. Conf. on Nucleus-Nucleus Collisions (NN2009)
               Nucl. Phys. A834, 788c-791c (2010).

114.        W. H. Dickhoff
                Determining and calculating spectroscopic factors from stable nuclei to the drip lines.

                
J. Phys. G: Nucl. Part. Phys. 37, 064007 (2010), 1-10.

115.        A. Rios, W. H. Dickhoff, and A. Polls
                Role of short-range and tensor correlations in nuclei.
                in proceedings of the INPC 2010, Vancouver, Canada (July 2010)
                Journal of Physics : Conference Series 312 (2011) 022007, 1-10

116.        A. Rios, W. H. Dickhoff, and A. Polls
                Role of short-range and tensor correlations in nuclei.
                in proceedings of the conference on Many-body  correlations from dilute to dense nuclear
                systems, February 2011, Paris, France

                Journal of Physics : Conference Series 321 (2011) 012038, 1-4.

117.        A. Polls, W. H. Dickhoff, H. Müther, A. Ramos, A. Rios, and I. Vidaña
                Nucleon correlations and the equation of state of nuclear matter.
                
in proceedings International Workshop on Chiral Symmetry in Hadrons and                       
                Nuclei, Valencia, Spain (June 2010),
edited by J. M. Nieves, E. Oset, and M. J.
                Vicete-Vacas
                
AIP, Conf. Proc. 1322 (2010), 99-107.


118.        W. H. Dickhoff, D. Van Neck, S. J. Waldecker, R. J. Charity, and L. G. Sobotka
                Nonlocal extension of the dispersive-optical-model to describe data below the Fermi   
                energy.

                Phys. Rev. C82, 054306 (2010), 1-12.


119.        J. M. Mueller, R. J. Charity, R. Shane, L. G. Sobotka, S. J. Waldecker, W. H. Dickhoff, 
                A. S. Crowell,  J. H. Esterline, B. Fallin, C. R. Howell, C. Westerfeldt, M. Youngs, B. J. Crowe,
               III, and R. S. Pedroni

                Asymmetry dependence of nucleon correlations in spherical nuclei extracted from a 
                dispersive-optical-model analysis.

                Phys. Rev. C83, 064605 (2011), 1-32.


120.        S. J. Waldecker, C. Barbieri and W. H. Dickhoff
                Microscopic self-energy calculations and dispersive-optical-model potentials.

               
Phys. Rev. C84, 034616 (2011), 1-11.


121.        N. B. Nguyen, S. J. Waldecker, F. M. Nuñes, R. J. Charity, and W. H. Dickhoff

               Transfer reactions and the dispersive optical-model.

                
Phys. Rev. C84, 044611 (2011), 1-9.


122.        H. Dussan, S. J. Waldecker, W. H. Dickhoff, H. Müther, and A. Polls
                Microscopic self-energy of 
40Ca from the charge-dependent Bonn potential.
                
Phys. Rev. C84, 044319 (2011), 1-16.

123.        F. M. Nuñes, N. J. Upadhyay, N. B. Nguyen, P. Capel, R. J. Charity, A. Deltuva, 
                W. H. Dickhoff,
S. J. Waldecker, H. Esbensen, and R. C. Johnson               
               Are present reaction theories for studying rare isotopes good enough?

                in proceedings of the Fourteenth International Symposium on Capture Gamma-Ray    
                Spectroscopy and Related Topics, University of Guelph, Canada, Aug. 28-Sep. 2, 2011
                (World Scientific, Singapore, 2013), p. 282-292.


124.         R. J. Charity, W. H. Dickhoff, L. G. Sobotka, and S. J. Waldecker
                Isospin dependence of nucleon correlations in ground-state nuclei.
                Eur. Phys. J. A 50: 23 (2014), 1-7.
 
                Erratum: Isospin dependence of nucleon correlations in ground-state nuclei
.
                Eur. Phys. J. A 50: 64 (2014).


125.         M. H. Mahzoon, R. J. Charity, W. H. Dickhoff, H. Dussan, and S. J. Waldecker
                Forging the link between nuclear reactions and nuclear structure.
                Phys. Rev. Lett. 112, 162503 (2014),  1-5.
 
                Nonlocal dispersive optical model ingredients for 40Ca.         
                
ArXiv:1312.4886 (2013).
                
Forging the link between nuclear reactions and nuclear structure. Supplementary material.
                
Phys. Rev. Lett. 112, 162503 (2014), supplemental.

126.         A. Rios, A. Polls, and W. H. Dickhoff
                Density and isospin-asymmetry dependence of high-momentum components.
                Phys. Rev. C89,  044303 (2014), 1-13.

127.         D. Ding, S. J. Witte, W. H. Dickhoff, H. Dussan, A. Rios, and A. Polls
                Pairing in bulk nuclear matter beyond BCS.
                in proceedings of the NMP2014 Workshop
                edited by P. Danielewicz,
A. Levchenko and V. Zelevinsky 
                
 AIP, Conf. Proc. 1619 (2014), 73-80.

128.        H. Dussan, M. H. Mahzoon, R. J. Charity, W. H. Dickhoff, and A. Polls
                Elastic nucleon-nucleus scattering as a direct probe of correlations beyond the                                  independent-particle model
.                                                                                                                Phys. Rev. C89,  061603(R) (2014), 1-15.

129.        M. H. Mahzoon, R. J. Charity, W. H. Dickhoff, and H. Dussan
                Dispersive self-energy method and neutron properties in Ca isotopes.

                Phys. Rev. C, (2015), to be published.

130.         D. Ding, S. J. Witte, H. Dussan, A. Rios, A. Polls, and W. H. Dickhoff
                Reduction of P-wave pairing at high density in neutron stars.
                Phys. Rev. C, (2015), to be published.

131.         J. M. Morris and W. H. Dickhoff
                Dynamic pion-exchange modification of the Reid potential and nuclear saturation.

                Phys. Rev. C, (2015), to be published.

132.         D. Ding, H. Dussan, and W. H. Dickhoff
                Proton-neutron pairing in extreme asymmetric matter.
                Phys. Rev. C, (2015), to be published.

133.         T. Wenneker, M. H. Mahzoon, R. J. Charity, and W. H. Dickhoff
                Dispersive optical model applications for light nuclei.
                Phys. Rev. C, (2015), to be published.



E-mail: wimd@wuphys.wustl.edu