Publications
Willem Hendrik
Dickhoff
(updated 10/4/2024)
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 and
"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 short-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. C90, 061603(R) (2014), 1-15.
129.
A.
Ross, L. J. Titus, F. M. Nuñes, M. H. Mahzoon, W.
H. Dickhoff,
and
R. J.
Charity
Effect
of non-local potentials on (p,d) transfer reactions.
Phys.
Rev. C92, 044607 (2015), 1-7.
130. D.
Ding, A. Rios, H.
Dussan, W. H. Dickhoff,
S. J. Witte, A. Carbone, and A. Polls
Pairing in high-density neutron matter
including short- and long-range correlations.
Phys.
Rev. C94, 025802 (2016), 1-17.
131.
F.
M. Nuñes, A. Lovell, A.
Ross, L. J. Titus, R. J. Charity, W. H. Dickhoff, M. H.
Mahzoon,
J. Sarich, and
S. M.
Wild
One-nucleon
transfer reactions and the optical potential.
In Proc. of the "14th
International Conference on Nuclear Reaction
Mechanisms",
Varenna, Italy, June 2015
eds.
F. Cerutti, M. Chadwick, A. Ferrari, T. Kawano, and
P. Schoofs
CERN-Proceedings-2015-001,
p. 123-130
132.
A. Rios, D. Ding, H. Dussan, W. H. Dickhoff, S.
J. Witte, and A. Polls
Beyond BCS pairing in high-density neutron
matter.
in
Proc.
of "Nuclear Physics in Astrophysics VII",
28th EPS Nuclear Physics Divisional
Conference, York, UK, May 2015
Journal
of
Physics : Conference Series 940
(2018) 012014, 1-4
133.
W. H. Dickhoff
A
further update on possible crises in nuclear-matter
theory.
in Proc.
18th "International Conference on Recent Progress in
Many-Body Theories", Niagara
Falls, USA, August 2015
edited by E. Krotscheck and G.
Ortiz
Journal
of
Physics : Conference Series 702
(2016) 012013, 1-9
134.
W. H. Dickhoff
Forging
the Link between Nuclear Reactions and Nuclear
Structure.
in Proc.
CNR*15 - 5th International Workshop on Compund-Nuclear
Reactions and Related
Topics
Tokyo, Japan, October
19-23, 2015
eds. T.Kawano, S. Chiba, M. W. Paris, and P.
Talou
EPJ
Web of Conferences 122 (2016) 09003, 1-15
135.
W. H. Dickhoff, R. J. Charity,
and M. H. Mahzoon
Novel applications of the dispersive
optical model.
J. Phys. G: Nucl. Part. Phys. 44
(2017) 033001, 1-57
136.
G. Potel, G. Perdikakis, B.V. Carlson, M. C.
Atkinson, P. Capel, W. H. Dickhoff,
J. E. Escher, M. S. Hussein, J. Lei, W.
Li, A. O. Macchiavelli, A. M. Moro, F. M. Nunes,
S. D. Pain, and J. Rotureau
Toward
a complete theory for predicting inclusive deuteron
breakup away from stability.
Eur.
Phys. J. A 53: 178 (2017), 1-16.
137.
M. H. Mahzoon, M. C. Atkinson, R. J. Charity, and W.
H. Dickhoff
Neutron
skin thickness of 48Ca
from a nonlocal dispersive optical-model analysis.
Phys.
Rev. Lett. 119, 222503
(2017), 1-5.
Neutron skin
thickness of 48Ca
from a nonlocal dispersive optical-model analysis.
(Supplementary material.
Phys. Rev. Lett. 119,
222503 (2017), supplemental.
138. A.
Rios, A. Polls, and W. H. Dickhoff
Pairing and short-range correlations in
nuclear systems.
J.
Low Temp. Phys 189 (2017), 234-249.
139.
M. C. Atkinson, H. P. Blok, L.
Lapikás,
R. J. Charity, and W. H. Dickhoff
Validity
of the distorted-wave impulse-approximation
description of 40Ca(e, e′p)39K
data using only ingredients from a
nonlocal dispersive optical model.
Phys.
Rev. C98, 044627 (2018), 1-14.
[arXiv:1808.
08895]
140.
W. H. Dickhoff and R. J.
Charity
Recent developments for the optical model of nuclei.
Prog.
Part. Nucl. Phys. 105 (2019), 252-299.
141. W. H.
Dickhoff
Linking
nuclear reactions and nuclear structure to study exotic
nuclei using the Dispersive
Optical Model.
In: Escher J. et al. (eds)
Compound-Nuclear Reactions. Springer Proceedings in
Physics,
LBNL, Berkeley, CA, USA, September
24-28, 2018
Springer
Proceedings in Physics, 254 (2021), 83-90.
142.
M. C. Atkinson and W. H.
Dickhoff
Investigating the link between proton reaction cross
sections and the quenching of
proton spectroscopic factors in 48Ca.
Phys.
Lett. B 798, 135027 (2019), 1-6.
143.
W. H. Dickhoff and M. C. Atkinson
Combining
nuclear reactions and structure with the dispersive
optical model.
in
proceedings of the INPC 2019, Glasgow, Scotland (July
29 - August 2, 2019)
Journal
of Physics: Conference Series 1643, 012082 (2020),
1-7
144.
M. C. Atkinson, M. H. Mahzoon, M. A. Keim, B. A.
Bordelon, C. D. Pruitt,
R. J. Charity, and W. H. Dickhoff
Dispersive
optical model analysis of 208Pb generating
a neutron-skin prediction beyond
the mean field.
Phys.
Rev. C 101, 044303 (2020), 1-15. [arXiv:1911.09020]
145.
M. C. Atkinson, W. H. Dickhoff, M. Piarulli, A.
Rios, and R. B. Wiringa
Reexamining
the relation between the binding energy of finite
nuclei and the equation of state
of infinite nuclear matter.
Phys.
Rev. C 102, 044333 (2020),
1-13 [editor's suggestion]. [arXiv:2001.07231]
146.
C. D. Pruitt, R. J. Charity, L. G. Sobotka, M. C.
Atkinson, and W. H. Dickhoff
Systematic
matter and binding-energy distributions from a
dispersive optical model
analysis.
Phys.
Rev. Lett.
125, 102501 (2020), 1-6. [arXiv:2006.00021]
147.
C. D. Pruitt, R. J. Charity, L. G. Sobotka, J. M.
Elson, D. E. M. Hoff, K. W. Brown,
M. C. Atkinson, W. H. Dickhoff, H. Y. Lee,
M. Devlin, N. Fotiadis, and S. Mosby
Isotopically-resolved
neutron total cross sections at intermediate energies.
Phys.
Rev. C 102,
034601 (2020), 1-26. [arXiv:2006.00024]
148.
Calvin
W. Johnson, Kristina D. Launey, Naftali Auerbach,
Sonia Bacca, Bruce R. Barrett,
Carl Brune, Mark A. Caprio, Pierre
Descouvemont, W. H. Dickhoff, Charlotte Elster,
Patrick J. Fasano, Kevin Fossez,
Heiko Hergert, Morten Hjorth-Jensen, Linda Hlophe,
Baishan Hu, Rodolfo M. Id Betan,
Andrea Idini, Sebastian König, Konstantinos
Kravvaris,
Dean Lee, Jin Lei, Pieter Maris,
Alexis Mercenne, Kosho Minomo, Rodrigo Navarro
Perez,
Witold Nazarewicz, F. M. Nunes,
Marek Ploszajczak, Sofia Quaglioni, Jimmy
Rotureau,
Gautam Rupak, Andrey M. Shirokov,
Ian Thompson, James P. Vary, Alexander Volya,
Furong Xu, Vladimir Zelevinsky, and
Xilin Zhang.
From
bound states to the continuum.
J. Phys. G: Nucl. Part. Phys. 47
(2020) 123001, 1-61
149.
T. Aumann, C. Barbieri, D. Bazin, C. A. Bertulani, A.
Bonaccorso, W. H. Dickhoff, A. Gade,
M. Gomez-Ramos, B. P. Kay, A. M. Moro, T. Nakamura, A.
Obertelli, K. Ogata, S. Paschalis, and
T. Uesaka
Quenching of single-particle
strength from direct reactions with stable and
rare-isotope beams.
Prog.
Part. Nucl. Phys. 118
(2021) 103847, 1-88.
150.
K. Yoshida, M. C. Atkinson, K. Ogata, and W. H. Dickhoff
First
application of dispersive optical model to (p,2p)
analysis within distorted wave
impulse approximation framework.
Phys.
Rev. C 105,
014622 (2022), 1-7.
151.
M. C. Atkinson, W. H. Dickhoff, M. Piarulli, A.
Rios, and R. B. Wiringa
Reply
to Comment on Reexamining the relation between the
binding energy of
finite nuclei and the equation of state of infinite
nuclear matter.
Phys.
Rev. C 104, 059802 (2021).
152.
C.
Hebborn, F. M. Nunes, G. Potel, W. H. Dickhoff, J.
W. Holt, M. C. Atkinson, R. B. Baker,
C. Barbieri, G. Blanchon, M. Burrows, R.
Capote, P. Danielewicz, M. Dupuis, Ch. Elster,
J. E. Escher, L. Hlophe, A.
Idini, H. Jayatissa, B. P. Kay, K. Kravvaris, J.
J. Manfredi, A.
Mercenne, B. Morillon, G. Perdikakis, C. D.
Pruitt, G. H. Sargsyan, I. J. Thompson,
M. Vorabbi, and T. R.
Whitehead.
Optical
potentials for the rare-isotope beam era.
J. Phys. G: Nucl. Part. Phys. 50
(2023) 060501, 1-59
153.
M. C. Atkinson and W. H. Dickhoff
Neutron skins: A perspective from
dispersive optical models.
Front.
Phys. (2024), in press.
154.
N. L. Calleya, M. C. Atkinson, and W.
H. Dickhoff
Investigating the weak charge of 48Ca
using a dispersive optical model.
Phys.
Lett. B (2024), submitted.
155.
M. C. Atkinson and W. H. Dickhoff
Learning from knockout reactions
using a dispersive optical model.
Front.
Phys. (2024), submitted.
