References for the Quasielastic Electron Scattering

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1 References for the Quasielastic Electron Scattering Data Archive [1] R. Altemus et al. Longitudinal and transverse inelastic electron scattering from fe-56. Phys. Rev. Lett., 44: , [2] Rosemary Martha Altemus. Deep Inelastic Electron Scattering From Iron 56 And Other Tails. PhD dissertation, University of Virginia, Department of Physics, June-August unpublished. [3] M. Anghinolfi et al. Quasi-elastic and inelastic inclusive electron scattering from an oxygen jet target. Nucl. Phys., A602: , [4] R. G. Arnold et al. Measurements of transverse quasielastic electron scattering from the deuteron at high momentum transfers. Phys. Rev. Lett., 61:806, [5] J. Arrington et al. Inclusive electron scattering from nuclei at x approximately = 1. Phys. Rev., C53: , [6] J. Arrington et al. Inclusive electron nucleus scattering at large momentum transfer. Phys. Rev. Lett., 82: , [7] John Robert Arrington. Inclusive electron scattering from nuclei at x > 1 and high 4-momentum transfer. PhD thesis, Cal Tech, Department of Physics, unpublished, UMI [8] D. S. Bagdasaryan et al. Measurement of the spectra of (e,e ) scattering 9 Be and 12 C nuclei in the inelastic region at q 2 approximately 0.4 (gev/c) 2. YERPHI [9] D. T. Baran et al. Delta electroproduction and inelastic charge scattering from carbon and iron. Phys. Rev. Lett., 61: , [10] David Theodore Baran. The electroproduction of the delta isobar in nuclei. PhD thesis, Northwestern University, Department of Physics, June-August unpublished, UMI [11] P. Barreau et al. Deep inelastic electron scattering from carbon. Nucl. Phys., A402: ,

Anghinolfi et al. Quasi-elastic and inelastic inclusive electron scattering from an oxygen jet target. Nucl. Phys., A602:405 422, 1996. [4] R. G. Arnold et al.

2 [12] C. C. Blatchley. Quasi Elastic Electron Scattering in Uranium-238. PhD dissertation, Louisiana State University, Department of Physics, June- August unpublished. [13] C. C. Blatchley et al. Quasielastic electron scattering from u-238. Phys. Rev., C34: , [14] P. Bosted et al. Measurements of nu w(2) and r = sigma-l / sigma-t from inelastic electron - aluminum scattering near x = 1. Phys. Rev., C46: , [15] J. P. Chen. The longitudinal and transverse response functions in Fe 56 (e, e ) at Q 2 near 1 - (GeV/c) 2. PhD dissertation, University of Virginia, Department of Physics, June-August unpublished. [16] J. P. Chen et al. Longitudinal and transverse response functions in fe- 56(e, e-prime) at momentum transfer near 1-gev/c. Phys. Rev. Lett., 66: , [17] D. Day et al. Inclusive electron scattering from he-3. Phys. Rev. Lett., 43:1143, [18] D. B. Day et al. Y scaling in electron nucleus scattering. Phys. Rev. Lett., 59: , [19] D. B. Day et al. Inclusive electron nucleus scattering at high momentum transfer. Phys. Rev., C48: , [20] M. Deady et al. Response functions for deep inelastic scattering from 40ca. Phys. Rev., C28:631, [21] M. Deady et al. Deep inelastic separated response functions from 40ca and 48ca. Phys. Rev., C33:631, [22] N. G. Dementii et al. Quasielastic scattering of mev electrons by the nucleons of c12. Sov. J. Nucl. Phys., 9: , [23] K. Dow et al. Longitudinal response functions and sum rules for quasielastic electron scattering from h-3 and he-3. Phys. Rev. Lett., 61: ,

Measurements of nu w(2) and r = sigma-l / sigma-t from inelastic electron - aluminum scattering near x = 1. Phys. Rev., C46:2505 2515, 1992. [15] J. P. Chen.

3 [24] Karen Ann Dow. Deep inelastic electron scattering from 3H and 3He. PhD thesis, Massachisetts Institute of Technology, Ph.D Thesis, MIT, 1987, unpublished. [25] S. A. Dytman et al. Inclusive electron scattering from h-2, he-3, and he-4. Phys. Rev., C38: , [26] H. F. Ehrenberg and R. Hofstadter. Incoherent electron scattering from the nucleons in beryllium and carbon and the magnetic size of the neutron. Phys. Rev., 110: , [27] U. B. Glawe. Electron nucleus scattering experiments in the gev region. (in german). Hamburg Desy - INTERNAL REPORT F (80,REC.OCT) 136p. [28] P. Gueye et al. Coulomb distortion measurements by comparing electron and positron quasielastic scattering off c-12 and pb-208. Phys. Rev., C60:044308, [29] F. H. Heimlich. Quasielastische streuung (e,e p) und (e,e d) sowie inelastische streuung im bereich der delat(1236)-resonanz an 6li. DESY- F , [30] F. H. Heimlich et al. High-energy electron scattering from li-6 and c-12. Nucl. Phys., A231: , [31] A. Hotta et al. Quasielastic electron scattering from from 56fe at 180 degrees. Phys. Rev., C30:87 96, [32] Allison Lung. Quasielastic electron-deuteron scattering and neutron electromagnetic form factors at Q 2 = 1.75 to 4.00 (GeV/c) 2. PhD thesis, American University, UMI-AAT [33] C. Marchand et al. Transverse and longitudinal response function in deep inelastic electron scattering from he-3. Phys. Lett., B153:29 32, [34] J. S. McCarthy, I. Sick, R. R Whitney, and M. R. Yearian. Quasielastic electron scattering from he-3 and he-4. Phys. Rev., C13: , [35] Z. E. Meziani et al. Coulomb sum rule for ca-40, ca-48, and fe-56 for q 550-mev/c. Phys. Rev. Lett., 52: ,

Incoherent electron scattering from the nucleons in beryllium and carbon and the magnetic size of the neutron. Phys. Rev., 110:544 550, 1958. [27] U. B. Glawe.

4 [36] Z. E. Meziani et al. Transverse response functions in deep inelastic electron scattering for ca-40, ca-48, and fe-56. Phys. Rev. Lett., 54: , [37] Z. E. Meziani et al. High momentum transfer r(t,l) inclusive response functions for he-3, he-4. slac-ne-9 experiment. Phys. Rev. Lett., 69:41 44, [38] E. J. Moniz et al. Nuclear fermi momenta from quasielastic electron scattering. Phys. Rev. Lett., 26: , [39] J. Morgenstern and Z. E. Meziani. Is the coulomb sum rule violated in nuclei? Phys. Lett., B515: , [40] J. Mougey et al. Deep inelastic electron scattering from c-12. Phys. Rev. Lett., 41: , [41] J. S. O Connell et al. Electromagnetic excitation of the delta resonance in nuclei. Phys. Rev., C35:1063, [42] B. Parker et al. Transverse quasielastic electron scattering from the deuteron. Phys. Rev., C34:2354, [43] Brett Lee Parker. 180 Degree Electron Scattering From The Deuteron (Electrodisintegration, Quasielastic Peak, Transverse Form Factor, Pion Production, Threshold Breakup. PhD thesis, University of Massacusetts, Amherst, UMI-AAT [44] G. Petratos, Gerassimos. Quasielastic Electron - Deuteron Scattering At 180-Degrees At Large Momentum Transfers. PhD thesis, American University, UMI [45] David Henry Potterveld. A Measurement Of Inclusive Quasielastic Electron Scattering Cross-Sections At High Momentum Transfer. PhD thesis, California Institute of Technology, UMI [46] B. P. Quinn et al. Measurements of total and separated response functions of the deuteron through the quasielastic peak region for q = 300- mev/c mev/c. Phys. Rev., C37: ,

Morgenstern and Z. E. Meziani. Is the coulomb sum rule violated in nuclei? Phys. Lett., B515:269 275, 2001. [40] J. Mougey et al. Deep inelastic electron scattering from c-12. Phys. Rev. Lett., 41:1645 1648, 1978.

5 [47] S. Rock et al. Inelastic electron scattering from he-3 and he-4 in the threshold region at high momentum transfer. Phys. Rev., C26:1592, [48] S. Rock et al. Measurement of elastic electron - neutron scattering and inelastic electron - deuteron scattering cross-sections at high momentum transfer. Phys. Rev., D46:24 44, [49] P. J. Ryan, J. B. Flanz, R. S. Hicks, B. Parker, and G. A. Peterson. Transverse quasielastic electron scattering from c-12 at 180-degrees. Phys. Rev., C29: , [50] W. P. Schutz et al. Inelastic electron deuteron scattering in the threshold region at high momentum transfer. Phys. Rev. Lett., 38:259, [51] R. M. Sealock et al. Electroexcitation of the delta (1232) in nuclei. Phys. Rev. Lett., 62: , [52] K. C. Stanfield, C. R. Canizares, W. L. Faissler, and F. M. Pipkin. Quasielastic electron scattering and pion electroproduction from c-12. Phys. Rev., C3: , [53] Y.I. Titov et al. Producton of pions by electrons in c12. Sov. J. Nucl. Phys., 9:772, [54] Y.I. Titov et al. Experimental investigation of the mechansim of electroproduction of pions on complex nuclei. Sov. J. Nucl. Phys., 13:660, [55] Y.I. Titov et al. Inelastic scattering of electrons by protons and li6 nuclei. Sov. J. Nucl. Phys., 15:361, [56] Y.I. Titov et al. Inelastic scattering of 1.2 gev electrons by be, cu, and ag. Sov. J. Nucl. Phys., 19: , [57] K. F. von Reden et al. Quasielastic electron scattering and coulomb sum rule in he-4. Phys. Rev., C41: , [58] R. R. Whitney, I. Sick, J. R. Ficenec, R. D. Kephart, and W. P. Trower. Quasielastic electron scattering. Phys. Rev., C9:2230,

[50] W. P. Schutz et al. Inelastic electron deuteron scattering in the threshold region at high momentum transfer. Phys. Rev. Lett., 38:259, 1977. [51] R. M. Sealock et al.

6 [59] C. Williamson et al. Quasielastic electron scattering from 40ca. Phys. Rev., C56: , [60] T. C. Yates et al. Longitudinal response functions for ca-40 from quasielastic electron scattering. Phys. Lett., B312: , [61] Diethelm Zeller. Investigation of the structure of the c-12 nucleus by high- energy electron scattering. DESY-F , [62] A. Zghiche et al. Longitudinal and transverse responses in quasielastic electron scattering from pb-208 and he-4. Nucl. Phys., A572: , [63] P. D. Zimmerman. Quasielastic Scattering From Ca-48 And Ca-40. PhD thesis, Stanford University, unpublished, UMI [64] P. D. Zimmerman, J. M. Finn, C. F. Williamson, T. De Forest, and W. C. Hermans. Deep inelastic electron scattering from ca-40 in the transverse region. Phys. Lett., B80:45 47, [65] P. D. Zimmerman and M. Yearian. Fermi momenta and separation energies obtained from the quasi-elastic scattering of electrons from ca- 48 and ca-40. Z. Physik, A278: ,

Investigation of the structure of the c-12 nucleus by high- energy electron scattering. DESY-F23-73-2, 1973. [62] A. Zghiche et al.

Masses in Atomic Units

Masses in Atomic Units Nuclear Composition - the forces binding protons and neutrons in the nucleus are much stronger (binding energy of MeV) than the forces binding electrons to the atom (binding energy of ev) - the constituents