Radiative Corrections to Electron Scattering
Unpolarized RC Theory
Quantum Electrodynamics. I. A Covariant Formulation
Julian Schwinger
Phys. Rev. 74, 1439 - 1461 (1948)
Quantum Electrodynamics. II. Vacuum Polarization and Self-Energy
Julian Schwinger
Phys. Rev. 75, 651 - 679 (1949)
Quantum Electrodynamics. III. The Electromagnetic Properties of the Electron-Radiative Corrections to Scattering
Julian Schwinger
Phys. Rev. 76, 790 - 817 (1949)
Radiative Corrections to Electron-Proton Scattering
Yung-Su Tsai
Phys. Rev. 122, 1898 - 1907 (1961)
The infrared divergence phenomena and high-energy processes
D. R. Yennie, S. C. Frautschi, and H. Suura
Annals of Physics, Volume 13, Issue 3, June 1961, Pages 379-452
Comments on Radiative Corrections
L. C. MAXIMON
Rev. Mod. Phys. 41, 193 - 204 (1969)
Radiative Corrections to Elastic and Inelastic ep and up Scattering
L. W. MO and Y. S. TSAI
Rev. Mod. Phys. 41, 205 - 235 (1969)
Radiative Corrections to Electron Scattering
Yung-Su Tsai
SLAC-PUB-0848, January 1971
Numerical solution of the electron diffusion equation
R. A. Early
Nuclear Instruments and Methods Volume 109, Issue 1, 15 May 1973, Pages 93-100
Polarized RC Theory
Experiments
Deep inelastic scattering: The early years
Richard E. Taylor
Rev. Mod. Phys. 63, 573 - 595 (1991)
Deep inelastic scattering: Experiments on the proton and the observation of scaling
Henry W. Kendall
Rev. Mod. Phys. 63, 597 - 614 (1991)
Deep inelastic scattering: Comparisons with the quark model
Jerome I. Friedman
Rev. Mod. Phys. 63, 615 - 627 (1991)
Inelastic Electron Scattering at Large Angles
Guthrie Miller
SLAC-R-129, Stanford PhD Thesis, January 1971
Inelastic Electron-Proton Scattering at Large Momentum Transfers and the Inelastic Structure Functions of the Proton
G. Miller, et al.
Phys. Rev. D 5, 528 - 544 (1972)
Electron scattering at 4 deg with energies of 4.5-20 GeV
S. Stein, et al.
Phys. Rev. D 12, 1884 - 1919 (1975)
Experimental studies of the neutron and proton electromagnetic structure functions
A. Bodek, et al.
Phys. Rev. D 20, 1471 - 1552 (1979)
Measurement of kinematic and nuclear dependence of R=sigma_L/sigma_T in deep inelastic electron scattering
S. Dasu, et al.
Phys. Rev. D 49, 5641 - 5670 (1994)
Models
Modeling single arm electron scattering and nucleon production from nuclei by GeV electrons (QFS)
Lightbody, J. W. Jr., and J. S. O. Connell
Computers in Physics, Vol 2, p.57, May/June 1988 ♦ photocopied and scanned version (1.9M)
A unitary isobar model for pion photo- and electroproduction on the proton up to 1 GeV
D. Drechsel, O. Hanstein, S. S. Kamalov and L. Tiator
Nuclear Physics A Volume 645, Issue 1, 4 January 1999, Pages 145-174
MAID 2000/2003 web interface at Mainz
Quasi-elastic electron-nucleus scattering
Omar Benhar, Donal day, Ingo Sick
nucl-ex/0603029 (Submitted to RMP)
Quasielastic Electron Nucleus Scattering Archive
Radiation Length
(see my technote for discussion)
On the Stopping of Fast Particles and on the Creation of Positive Electrons
H. Bethe and W. Heitler
Proceedings of the Royal Society of London. Series A, Vol. 146, No. 856 (Aug. 1, 1934), pp. 83-112
Influence of Atomic Electrons on Radiation and Pair Production
John A. Wheeler and Willis E. Lamb, Jr.
Phys. Rev. 55, 858 - 862 (1939)
Erratum: Phys. Rev. 101, 1836 - 1836 (1956)
Passage of Radiations through Matter
by Hans A. Bethe and Julius Askin
in: Experimental Nuclear Physics, Volume I (edited by E. Segre)
pps 166-357, John Wiley and Sons:New York, 1953.
Theory of Bremsstrahlung and Pair Production. I. Differential Cross Section
H. A. Bethe and L. C. Maximon
Phys. Rev. 93, 768 - 784 (1954)
Theory of Bremsstrahlung and Pair Production. II. Integral Cross Section for Pair Production
Handel Davies, H. A. Bethe, and L. C. Maximon
Phys. Rev. 93, 788 - 795 (1954)
Pair production and bremsstrahlung of charged leptons
Yung-Su Tsai
Rev. Mod. Phys. 46, 815 - 851 (1974)
Erratum: Rev. Mod. Phys. 49, 421 - 423 (1977)
Passage of particles through matter
in: Review of Particle Physics
Particle Data Group
ESTAR: Stopping Powers and Range Tables for Electrons
M.J. Berger, J.S. Coursey, M.A. Zucker and J. Chang
online @ NIST website
Mean (Bethe-Bloch) & Most Probable (Landau) Energy Loss, Density Effect, and Collisional Length
(see my technote for discussion)
Techniques for Nuclear and Particle Physics Experiments: A How-to Approach
William R. Leo
second revised edition, Springer-Verlag:Berlin, 1994.
Correction to Landau's energy loss formula
Maccabee, H. D. and Papworth, D. G.
Physics Letters A, Volume 30, Issue 4, p. 241-242
The Ionization Loss of Energy in Gases and in Condensed Materials
Enrico Fermi
Phys. Rev. 57, 485 - 493 (1940)
General Expression for the Density Effect for the Ionization Loss of Charged Particles
R. M. Sternheimer and R. F. Peierls
Phys. Rev. B 3, 3681 - 3692 (1971)
General expression for the density effect for the ionization loss of charged particles
R. M. Sternheimer
Phys. Rev. B 24, 6288 - 6291 (1981)
Evaluation of the Collision Stopping Power of Elements and Compounds for Electrons and Positrons
Stephen M. Seltzer and Martin J. Berger
International Journal of Applied Radiation and Isotopes Volume 33, Issue 11, November 1982, Pages 1189-1218 ♦ photocopied and scanned version (4.4M)
Improved Procedure for Calculating the Collision Stopping Power of Elements and Compounds for Electrons and Positrons
Stephen M. Seltzer and Martin J. Berger
International Journal of Applied Radiation and Isotopes Volume 35, Issue 7, July 1984, Pages 665-676 ♦ photocopied and scanned version (2.9M)
Density effect for the ionization loss of charged particles in various substances
R. M. Sternheimer, M. J. Berger, and S. M. Seltzer
Atomic Data and Nuclear Data Tables, Volume 30, Issue 2, March 1984, Pages 261-271
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