Curriculum vitæ — Judah Moshe Eisenberg

Born:

Cincinnati, Ohio, U.S.A., December 17, 1938.

Immigrated to Israel:

August 1975.

Education:

Primary area of research activity:

Theoretical nuclear physics.

Experience:

Societies and honors:

Honorary degree:

Dr. rer. nat. (h.c.), University of Frankfurt, 1985.

Other professional activities:

Thesis supervision:

Guidance of roughly 20 M. Sc. students and roughly 20 doctoral students at the University of Virginia, Hebrew University (in collaboration with Professor A. Gal), and Tel Aviv University.

J.M. Eisenberg — List of Publications in Physics

Books:

Thesis: Induced Dalitz pair emission in the decay of the Σ0, Ph.D. dissertation (M.I.T., 1962, unpublished).

Papers in scientific journals:

1. Isospin selection rules for high-energy electron scattering, J.M. Eisenberg and M.E. Rose, Phys. Rev. 131 (1963) 848–853.

2. Direct electrodisintegration and photoeffect of nuclei, J.M. Eisenberg, Phys. Rev. 132 (1963) 2243–2250.

3. Inelastic scattering from 40Ca in the giant resonance region, L.J. Weigert and J.M. Eisenberg, Nucl. Phys. 53 (1964) 508–518.

4. Photoexcitation of electric dipole states in 28Si, L.N. Bolen and J.M. Eisenberg, Phys. Lett. 9 (1964) 52–53.

5. Angular distributions in the 27Al(p,γ)28Si reaction, J.B. Seaborn and J.M. Eisenberg, Can. J. Phys. 42 (1964) 2497–2499.

6. Electroexcitation of giant resonance levels in 28Si, J.B. Seaborn and J.M. Eisenberg, Nucl. Phys. 63 (1965) 496–503.

7. Photoexcitation of M1 and E2 levels in 16O, B.M. Spicer and J.M. Eisenberg, Nucl. Phys. 63 (1965) 520–525.

8. Isospin selection rules for inelastic electron scattering in the shell model, J.B. Seaborn and J.M. Eisenberg, Nucl. Phys. 70 (1965) 264–272.

9. Even-parity states in 16O, J.M. Eisenberg, B.M. Spicer and M.E. Rose, Nucl. Phys. 71 (1965) 273–298.

10. Even-parity states in 16O, J.B. Seaborn and J.M. Eisenberg, Nucl. Phys. 82 (1966) 308–320.

11. Radiative pion absorption in complex nuclei, D.K. Anderson and J.M. Eisenberg, Phys. Lett. 22 (1966) 164–166.

12. The surface delta interaction and excitations in closed shell nuclei, J. LeTourneux and J.M. Eisenberg, Nucl. Phys. 85 (1966) 119–128.

13. Core excitation of 20Ne, G.J. Borse and J.M. Eisenberg, Phys. Lett. 22 (1966) 630–631.

14. Single-nucleon emission following the absorption of free pions, J. LeTourneux and J.M. Eisenberg, Nucl. Phys. 87 (1966) 331–336.

15. Particle–hole description of 28Si and 32S, S.A. Farris and J.M. Eisenberg, Nucl. Phys. 88 (1966) 241–256.

16. Double-nucleon emission following the absorption of bound pions, J. LeTourneux and J.M. Eisenberg, Nucl. Phys. B3 (1967) 47–72.

17. Inelastic electron scattering cross sections using a finite nuclear well, F.D. Holder and J.M. Eisenberg, Nucl. Phys. A106 (1968) 261–274.

18. Effects of strong interactions and finite nuclear charge radius in pionic atoms, L.P. Fulcher, J.M. Eisenberg and J. LeTourneux, Can J. Phys. 45 (1967) 3313–3318.

19. Pion charge-exchange scattering on nuclei and proton–neutron correlations, J.M. Eisenberg, Nucl. Phys. B3 (1967) 387–394.

20. Radiative pion absorption and muon capture, H. Pietschmann, L.P. Fulcher and J.M. Eisenberg, Phys. Rev. Lett. 19 (1967) 1259–1261.

21. Double-nucleon emission following the absorption of bound pions, R. Guy, J.M. Eisenberg and J. LeTourneux, Nucl. Phys. A112 (1968) 689–696.

22. Odd-parity states in the A = 6 and 14 systems, B.S. Cooper and J.M. Eisenberg, Nucl. Phys. A114 (1968) 184–210.

23. Spin effects in pion charge-exchange scattering on nuclei, L.A. Charlton and J.M. Eisenberg, Can. J. Phys. 47 (1969) 236–238.

24. The validity of soft pion theorems for radiative pion absorption in nuclei, L.P. Fulcher, R. Guy, J.M. Eisenberg and H. Pietschmann, Phys. Lett. 29B (1969) 338–340.

25. Rescattering corrections in radiative pion absorption, R. Guy and J.M. Eisenberg, Nucl. Phys. B11 (1969) 601–610.

26. Pion absorption followed by two-nucleon emission, W. Elsaesser and J.M. Eisenberg, Nucl. Phys. A144 (1970) 441–448.

27. Radiative pion absorption in nuclei and soft-pion theorems, L.P. Fulcher and J.M. Eisenberg, Nucl. Phys. B18 (1970) 271–300; erratum B24 (1970) 659.

28. Pion production in pion–nucleus collisions, J.M. Eisenberg, Nucl. Phys. A148 (1970) 135–144.

29. Positive pion reactions with 12C, W.B. Jones and J.M. Eisenberg, Nucl. Phys. A154 (1970) 49–64.

30. Dynamic nuclear effects in pionic and kaonic atoms, P.K. Haff and J.M. Eisenberg, Phys. Lett. 33B (1970) 133–136.

31. Radiative pion absorption in medium and heavy nuclei, R. Guy and J.M. Eisenberg, Phys. Lett. 33B (1970) 137–139.

32. Multiple-scattering theory for pion–nucleus scattering near the 3,3 resonance, L.A. Charlton and J.M. Eisenberg, Ann. Phys. 63 (1971) 286–308 [de Shalit Memorial Volume].

33. Electroproduction of slow pions on nuclei and giant resonance vibrations, J.M. Eisenberg and H.J. Weber, Phys. Lett. 34B (1971) 107–109.

34. Pion charge-exchange scattering on nuclei and isobaric analog resonances, L.A. Charlton and J.M. Eisenberg, Nucl. Phys. A171 (1971) 625–630.

35. Charge-exchange scattering of pions on 14N, A.P. Maclin and J.M. Eisenberg, Can. J. Phys. 49 (1971) 1826–1827.

36. Nuclear photoemission following radiative pion absorption, R. Guy and J.M. Eisenberg, Can. J. Phys. 49 (1971) 1879–1884.

37. On the relationship between the Glauber approximation and the Watson multiple-scattering theory, J.M. Eisenberg, Ann. Phys. 71 (1972) 542–555.

38. Higher-order corrections to the optical potential for kaonic atoms, J.M. Eisenberg and R. Guy, Can. J. Phys. 50 (1972) 57–60.

39. Pion production by 600 MeV protons on light nuclei, J.M. Eisenberg, R. Guy, J.V. Noble and H.J. Weber, Phys. Lett. 43B (1973) 93–95.

40. Exclusion principle effects in pion–nucleus scattering in the region of the 3,3 resonance, J.M. Eisenberg and H.J. Weber, Phys. Lett. 45B (1973) 110–114.

41. Exclusion principle effects in pion–deuteron scattering near the 3,3 resonance, N.R. Nath, H.J. Weber and J.M. Eisenberg, Phys. Rev. C 8 (1973) 2488–2491.

42. The Lorentz–Lorenz effect in pion–nucleus interactions, J.M. Eisenberg, J. Huefner and E.J. Moniz, Phys. Lett. 47B (1973) 381–384.

43. Effects of spin and isospin degrees of freedom for pion–nucleus scattering in the Glauber theory, A.T. Hess and J.M. Eisenberg, Phys. Lett. 47B (1973) 311–314.

44. Double-nucleon emission following pion absorption with a three-body description of the final state, H. Garcilazo and J.M. Eisenberg, Nucl. Phys. A220 (1974) 13–30.

45. Quenching in the basic πN amplitude for pion–nucleus scattering, J.M. Eisenberg, Phys. Lett. 49B (1974) 224–226.

46. Comment on Pauli blocking in pion–nucleus scattering, H.J. Weber and J.M. Eisenberg, Phys. Rev. C 10 (1974) 925–927.

47. A heuristic model of pion–nucleus charge-exchange scattering, D. Tow and J.M. Eisenberg, Nucl. Phys. A237 (1975) 441–446.

48. Inelastic pion–nucleus scattering in distorted-wave impulse approximation, A.T. Hess and J.M. Eisenberg, Nucl. Phys. A241 (1975) 493–510.

49. Consequences of nuclear dynamics for the nonrelativistic πNN vertex, J.M. Eisenberg, J.V. Noble and H.J. Weber, Phys. Rev. C 11 (1975) 1048–1050.

50. Off-shell πN effects in pion–nucleus inelastic scattering, H. Garcilazo and J.M. Eisenberg, Nucl. Phys. A244 (1975) 487–496.

51. Pion absorption effects in the reaction 3H(π+0)He, J.M. Eisenberg and V.B. Mandelzweig, Phys. Lett. 53B (1975) 405–408.

52. Generalizations of distorted-wave impulse approximation for nuclear (π+0) reactions, J.M. Eisenberg and A. Gal, Phys. Lett. 58B (1975) 390–394.

53. Pion–deuteron elastic scattering in a relativistic three-body theory, V.B. Mandelzweig, H. Garcilazo and J.M. Eisenberg, Nucl. Phys. A256 (1976) 461–478.

54. Comment on 13C(π+0) 13N(g.s.) in the (3,3) resonance region, A. Gal and J.M. Eisenberg, Phys. Rev. C 14 (1976) 1273–1276.

55. Behavior of the Λ(1405) resonance in nuclear matter, J.M. Eisenberg, Phys. Rev. C 14 (1976) 2343–2345.

56. Multiple pion exchange in a nonstatic theory of nucleon–nucleon scattering and isobar production, H.J. Weber, J.M. Eisenberg and M.D. Shuster, Nucl. Phys. A278 (1977) 491–505.

57. The exchange of ρ mesons in πd and π4He elastic scattering, E. Levin and J.M. Eisenberg, Nucl. Phys. A292 (1977) 459–476.

58. Isovector correlations and pion single-charge-exchange reactions in light nuclei, J. Warszawski, A. Gal and J.M. Eisenberg, Nucl. Phys. A294 (1978) 321–347.

59. Proton distortion and asymmetries in the (p,π) reaction, H.J. Weber and J.M. Eisenberg, Nucl. Phys. A312 (1978) 201–208.

60. The quadrupole term of the Lorentz–Lorenz effect in pionic atoms, J. Warszawski, J.M. Eisenberg and A. Gal, Nucl. Phys. A312 (1978) 253–264.

61. Orthogonality in medium-energy nuclear reactions, J.M. Eisenberg, J.V. Noble and H.J. Weber, Phys. Rev. C 19 (1979) 276–278.

62. Reactive content of the optical potential, J.M. Eisenberg, Phys. Rev. C 19 (1979) 559–561.

63. Theoretical search for a πnn stable bound state, G. Kaelbermann and J.M. Eisenberg, J. Phys. G 5 (1979) 35–38.

64. Models for the nonstatic NΔ interaction, E. Kapon, E. Piasetzky and J.M. Eisenberg, J. Phys. G 5 (1979) 893–905.

65. The Kd → pΛπ reaction at low energies in the Faddeev formalism, G. Toker, A. Gal and J.M. Eisenberg, Phys. Lett. 88B (1979) 235–238.

66. The (π,2π) process as a possible probe of pion condensation precursor phenomena, J.M. Eisenberg, Phys. Lett. 93B (1980) 12–15.

67. A simple relationship between pion–nucleus charge-exchange and inelastic cross sections, J.M. Eisenberg, J. Phys. G 6 (1980) 1265–1269.

68. Observational tests of models for a relativistic nucleon bound in scalar and vector potentials, J.M. Eisenberg, Nucl. Phys. A355 (1981) 269–276.

69. A theoretical study of pion-induced knockout reactions in nuclei, E. Levin and J.M. Eisenberg, Nucl. Phys. A355 (1981) 277–311.

70. Threshold electroproduction of charged pions and pion condensation precursor phenomena, J.M. Eisenberg, Nucl. Phys. A355 (1981) 312–320.

71. The study of pion condensation precursor phenomena through nuclear continuum excitations, J.M. Eisenberg, J. Phys. G 7 (1981) 439–444.

72. The YN interactions and K reactions on deuterium at low energies, G. Toker, A. Gal and J.M. Eisenberg, Nucl. Phys. A362 (1981) 405–430.

73. Pion exchange-current contribution to pion inelastic scattering, J. Cohen and J.M. Eisenberg, J. Phys. G 7 (1981) 881–894.

74. A heuristic model for nucleon effective mass features in the presence of pion condensation, J.M. Eisenberg, Phys. Lett. 104B (1981) 353–356.

75. Final-state effects in the (π,2N) reaction, G. Kaelbermann and J.M. Eisenberg, Nucl. Phys. A382 (1982) 413–433.

76. Multiple scattering in dilute systems, J.M. Eisenberg, Nucl. Phys. A389 (1982) 595–604.

77. The (π,2π) reaction and spin–isospin strength distribution in nuclei, J. Cohen and J.M. Eisenberg, Nucl. Phys. A395 (1983) 389–412.

78. An eikonal treatment including two-step mechanisms for the (p,n) reaction on light nuclei, J. Kronenfeld, A. Gal and J.M. Eisenberg, Nucl. Phys. A402 (1983) 569–580.

79. Chiral bag models and πN → ππN reaction, G. Kaelbermann and J.M. Eisenberg, Phys. Rev. D 28 (1983) 66–70.

80. Pion photoproduction in the Δ(1232) region and the chiral bag model, G. Kaelbermann and J.M. Eisenberg, Phys. Rev. D 28 (1983) 71–78.

81. A schematic model for spin–isospin strength distribution in finite nuclei, J.M. Eisenberg, J. Phys. G 9 (1983) 707–717.

82. (e,e'π) reaction on light nuclei and spin–isospin strength distribution effects, J. Cohen and J.M. Eisenberg, Phys. Rev. C 28 (1983) 1309–1317.

83. The (e,e'π) reaction on light nuclei and spin–isospin strength distribution effects, J. Cohen and J.M. Eisenberg, N. Cimento 76A (1983) 483–487.

84. The (π,2π) reaction and spin–isospin strength distribution in nuclei, J. Cohen and J.M. Eisenberg, N. Cimento 76A (1983) 488–493.

85. Applications of the chiral bag models to the Roper resonance, G. Kaelbermann and J.M. Eisenberg, Phys. Rev. D 29 (1983) 517–524.

86. Response to spin–isospin longitudinal probes and pionlike excitations in finite nuclei, J. Cohen and J.M. Eisenberg, Phys. Rev. C 29 (1983) 914–931.

87. Chiral soliton-bag models with nonlinear pion fields, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. 139B (1984) 337–340.

88. The ABC effect and chiral bag models, G. Kaelbermann and J.M. Eisenberg, Nucl. Phys. A426 (1984) 599–608.

89. Antiproton–nucleus scattering with self-consistent model for medium corrections, J. Kronenfeld, A. Gal and J.M. Eisenberg, Nucl. Phys. A430 (1984) 525–538.

90. Quark–gluon plasma cooling through pion emission in a chiral bag model, B. Mueller and J.M. Eisenberg, Nucl. Phys. A435 (1985) 791–809.

91. Nucleon–nucleon force in a skyrmion model stabilized by omega-exchange, J.M. Eisenberg, A. Erell and R.R. Silbar, Phys. Rev. C 33 (1986) 1531–1534.

92. Absence of attraction in the NN central potential derived from skyrmions, G. Kaelbermann, J.M. Eisenberg, R.R. Silbar and M.M. Sternheim, Phys. Lett. B 150 (1986) 4–8.

93. An improved approximation for the skyrmion description of the NN system, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. B 188 (1987) 311–313.

94. Properties of skyrmions of large baryon number, G. Kaelbermann and J.M. Eisenberg, J. Phys. G 13 (1987) 1029–1035.

95. Pair production in transport equations, J.M. Eisenberg and G. Kaelbermann, Phys. Rev. D 37 (1988) 1197–1201.

96. The isoscalar charge form factor in nuclei of A = 2, 3 obtained in the Skyrme model, Y. Kluger and J.M. Eisenberg. Int. J. Mod. Phys. A 3 (1988) 2127–2142.

97. A search for πnn bound states, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. B 211 (1988) 389–392.

98. Further investigations of the NN interaction in the Skyrme model, G. Kaelbermann and J.M. Eisenberg, J. Phys. G 15 (1989) 157–160.

99. NN interactions in the Skyrme model, G. Kaelbermann and J.M. Eisenberg, Nucl. Phys. A 500 (1989) 589–595.

100. Baryon octet interactions in nuclei, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. B 235 (1990) 6–10.

101. Properties of the baryon octet in the SU(3) Skyrme model, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. B 247 (1990) 206–209.

102. Radial vibrations in the SU(3) Skyrme model and the NN interaction, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. B 257 (1991) 259–262.

103. Consequences of an alternate skyrmion stabilizing term for the NN force, G. Kaelbermann, G. Pari and J.M. Eisenberg, Phys. Rev. C 44 (1991) 899–901.

104. Pair production in a strong electric field, Y. Kluger, J.M. Eisenberg, B. Svetitsky, F. Cooper and E. Mottola, Phys. Rev. Lett. 67 (1991) 2427–2430.

105. Pair production in a strong electric field with back-reaction — an interim summary, J.M. Eisenberg, Y. Kluger and B. Svetitsky, Acta Phys. Polonica B 23 (1992) 577–590.

106. Fermion pair production in a strong electric field, Y. Kluger, J.M. Eisenberg, B. Svetitsky, F. Cooper and E. Mottola, Phys. Rev. D 45 (1992) 4659–4671.

107. Baryon-octet interactions in the Skyrme model with vibrations and rotations, G. Kaelbermann and J.M. Eisenberg, Phys. Rev. D 46 (1992) 446–452.

108. Does the skyrmion support color transparency? J.M. Eisenberg and G. Kaelbermann, Phys. Lett. B 286 (1992) 24–28.

109. Particle production in the central rapidity region, F. Cooper, J.M. Eisenberg, Y. Kluger, E. Mottola, and B. Svetitsky, Phys. Rev. D 48 (1993) 190–208.

110. Pair production in a strong electric field with back-reaction in the context of the quark–gluon plasma, Y. Kluger, B. Svetitsky, and J.M. Eisenberg, Int. J. Mod. Phys. E 2 (1993) 333–380.

111. Pair creation in transport equations using the equal-time Wigner function, Ch. Best and J.M. Eisenberg, Phys. Rev. D 47 (1993) 4639–4646.

112. Three-nucleon interactions in the Skyrme model, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. B 304 (1993) 35–38.

113. A symmetrized ansatz for the dibaryon skyrmion, R. Levy-Nathansohn and J.M. Eisenberg, Int. J. Mod. Phys. E. 2 (1993) 587–595.

114. Changes in the radius of a nucleon in interaction with another nucleon, G. Kaelbermann, L.L. Frankfurt, and J.M. Eisenberg, Phys. Lett. B 329 (1994) 164–168.

115. Skyrmions at finite temperature, J. Dey and J.M. Eisenberg, Phys. Lett. B 334 (1994) 290–294.

116. Proton spin content from skyrmions, G. Kaelbermann, J.M. Eisenberg, and A. Schaefer, Phys. Lett. B 339 (1994) 211–214.

117. Back-reaction in a cylinder, J.M. Eisenberg, Phys. Rev. D 51 (1995) 1938–1947.

118. Spin content from skyrmions with parameters fit to baryon properties, G. Kaelbermann and J.M. Eisenberg, Nucl. Phys. A 587 (1995) 609–616.

119. An attractive nucleon–nucleon spin–orbit force from skyrmions with dilatons, G. Kaelbermann and J.M. Eisenberg, Phys. Lett. B 349 (1995) 416–420.

120. A derivation of the Boltzmann–Vlasov equation from multiple scattering using the Wigner function, J.M. Eisenberg, Heavy Ion Phys. 1 (1995) 53–59.

121. Hot nuclear matter with dilatons, G. Kaelbermann, J.M. Eisenberg, and B. Svetitsky, Nucl. Phys. A 600 (1996) 436–444.

122. The nucleon–nucleon force from skyrmions, J.M. Eisenberg and G. Kaelbermann, Int. J. Mod. Phys. E 5 (1996) 423–458.

123. Back reaction in the presence of thermalizing collisions, J.M. Eisenberg, Found. Phys. 27 (1997) 1213–1220.

124. Hot nuclear matter in the quark meson coupling model, P.K. Panda, A. Mishra, J.M. Eisenberg, and W. Greiner, Phys. Rev. C 56 (1997) 3134–3139.

125. The quantum Vlasov equation and its Markov limit, Y. Kluger, E. Mottola, and J.M. Eisenberg, Phys. Rev. D 58 (1998) 125015.

Chapters in books — invited talks:

1. Pion interactions in nuclei, J.M. Eisenberg, in Los Alamos National Laboratory report LA-4080 rev, January, 1969 (LANL, Los Alamos, 1969) pp. 24–25.

2. Pion on nucleus, J.M. Eisenberg, in Los Alamos National Laboratory report LA-4637-MS, January, 1971 (LANL, Los Alamos, 1971) pp. 4–5.

3. Pion–nucleus interactions — a nonsystematic review, J.M. Eisenberg, Los Alamos National Laboratory report LA-5190-C, March, 1973 (LANL, Los Alamos, 1973) pp. 51–53.

4. A proposal regarding (γ,p) and (p,γ) experiments, J.V. Noble and H.J. Weber, in Proc. int. conf. on photonuclear interactions and applications, Asilomar, March, 1973 (USAEC, Oak Ridge, 1973) pp. 957–963.

5. Introductory review of the multiple-scattering theory for pion–nucleus scattering, in Los Alamos National Laboratory report LA-5443-C, October, 1973, W.R. Gibbs and B.F. Gibson, eds. (LANL, Los Alamos, 1973) pp. 14–42.

6. Pauli blocking in pion–nucleus scattering in the 3,3 resonance region, J.M. Eisenberg and H.J. Weber, ibid., pp. 162–171.

7. Effects of spin and isospin degrees of freedom for pion–nucleus scattering in the Glauber theory, A.T. Hess and J.M. Eisenberg, ibid., pp. 311–314.

8. Pion–nucleus interactions, J.M. Eisenberg, in Interaction studies in nuclei, H. Jochim and B. Ziegler, eds. (North-Holland, Amsterdam, 1975) pp. 523–555.

9. Pion–nucleus reaction processes, J.M. Eisenberg, in High-energy physics and nuclear structure, D.E. Nagle et al., eds. (AIP, New York, 1975) pp. 17–39.

10. Recent developments involving isobars in nuclear systems, J.M. Eisenberg and H.J. Weber, in Proc. seventh int. conf. on high-energy physics and nuclear structure, M.P. Locher ed. (Birkhaeuser, Basel, 1977) pp. 193–201.

11. Beyond lowest-order results in pion–nucleus reactions, J.M. Eisenberg, in Common problems in low- and medium-energy nuclear physics, B. Castel et al., eds. (Plenum, New York, 1979) pp. 551–611.

12. Meson–nuclear physics 1979: a perspective, J.M. Eisenberg, in Meson–nuclear physics—1979, E.V. Hungerford, ed. (AIP, New York, 1979) pp. 1–14.

13. Theoretical aspects of pion photo- and electroproduction, J.M. Eisenberg, in Nuclear physics with electromagnetic interactions, H. Arenhoevel and D. Drechsel, eds. (Springer, Berlin, 1979) pp. 325–338.

14. Future developments in pion– and kaon–nuclear physics and the EM probe, J.M. Eisenberg, in From collective states to quarks in nuclei, H. Arenhoevel and A.M. Saruis, eds., (Springer, Berlin, 1981) pp. 368–374.

15. Pion production and absorption in nuclei: introductory remarks on the (p,π) and (π,p) reactions, J.M. Eisenberg, in Pion production and absorption in nuclei—1981, R.D. Bent, ed. (AIP, New York, 1982) pp. 3–13.

16. Nonlinear pion field effects in chiral bag models, G. Kaelbermann and J.M. Eisenberg, in Perspectives in nuclear physics at intermediate energies, S. Boffi et al., eds. (World Scientific, Singapore, 1984) pp. 447–454.

17. Hadronic physics with LAMPF II — a summary, J.M. Eisenberg, in Proc. Third LAMPF II workshop, J.C. Allred, ed. (LANL, Los Alamos, 1983) pp. 989–1011.

18. Nonlinear pion field effects in chiral bag models, G. Kaelbermann and J.M. Eisenberg, in Few-body problems in physics, B. Zeitnitz, ed. (Elsevier, Amsterdam, 1984) pp. 621–624.

19. An introduction to skyrmions as applied in nuclear physics, J.M. Eisenberg, in Physics of strong fields, W. Greiner, ed. (Plenum, New York, 1987) pp. 679–706.

20. An introduction to skyrmions in nuclear physics, in Quarks, gluons, and hadronic matter, (Proc. Cape Town Workshop, 1987, R. Violliers, ed. (World Scientific, Singapore, 1987) pp. 3–22.

21. Pair production in transport equations, in The Physics of the Quark–Gluon Plasma, S. Costa Ramos and J. Dias de Deus, eds. (World Scientific, Singapore, 1988) 201–208.

22. The use of skyrmions for two-nucleon systems. G. Kaelbermann and J.M. Eisenberg, in Prog. Nucl. Part. Phys. 22, A. Faessler, ed. (Plenum, New York, 1989), p. 1–42.

23. Transport equations for the quark–gluon plasma, J.M. Eisenberg, Y. Kluger and A. Rosenhauer, in The Nuclear Equation of State, W. Greiner, ed. (Plenum, New York, 1989) p. 501.

24. Skyrmions for two-baryon systems, J.M. Eisenberg and G. Kaelbermann, in Proc. Int. Conf. on the Nuclear Few-Body Problem, H. Fearing, ed. Nucl. Phys. A508 (1989) 395c–404c.

25. Pair production in a strong electric field with back-reaction, J.M. Eisenberg, Y. Kluger and B. Svetitsky, in Proceedings of the Bormio Winter School, 1992, I. Iora, ed. (Milano Univ., Milano, 1992).

26. Pair production in a strong electric field with back-reaction, J.M. Eisenberg, in Proceedings of the Zakopane Summer School, June, 1992, Acta Phys. Polonica B 23 (1992) 1047.

27. The equal-time Wigner transform of the Klein–Gordon field and pair production, Ch. Best, J.M. Eisenberg, G. Soff, W. Greiner, in Proceedings of the International Workshop in Nuclear Physics, Paris, June, 1992 (World Scientific, Singapore, 1993) pp. 270–275.

28. Transport equations with particle production and back-reaction, J.M. Eisenberg, in Hot and Dense Nuclear Matter, W. Greiner, H. Stoecker, and A. Gallmann, eds. (Plenum, New York, 1994) pp. 333–342.

29. Transport equations embodying particle production and back-reaction, J.M. Eisenberg, in Proceedings of the Workshop on Pre-equilibrium Parton Dynamics, X.-N. Wang, ed. (LBL-34831, Berkeley, 1994) pp. 99–112.

30. The nucleon–nucleon force from skyrmions, J.M. Eisenberg and G. Kaelbermann, in Progress in Particle and Nuclear Physics, volume 36, ed. A. Faessler (Elsevier, Oxford, 1996) pp. 321–334.

31. The nucleon in the nucleus as given by skyrmions, J.M. Eisenberg and G. Kaelbermann, in Proc. Int. Conf. on Nuclear Physics at the Turn of the Millenium: Structure of Vacuum and Elementary Matters, eds. H. Stoecker, A. Gallmann, and J.H. Hamilton (World Scientific, Singapore, 1977) p. 596.

32. Two-baryon forces from skyrmions (April, 1996), J.M. Eisenberg and G. Kaelbermann, in Int. Workshop on Hadron Physics 96, eds. E. Ferreira, R.A.M.S. Nazareth, V.L. Baltar, and J. de Sa Borges (World Scientific, Singapore, 1997) p. 55.