
PUBLICATIONS
by Archibald W. Hendry

(by topic)
Smatrix theory, analyticity, dispersion
relations

Analyticity of Partial Wave Amplitudes for Unstable
Particles, Nuovo Cimento 22, 680 (1961).

N Scattering
up to Medium Energies, Nucl. Phys. 37, 283 (1962).

Pion Photoproduction up to Medium Energies, Nucl.
Phys. 40, 296 (1963).

Coupling Constant, PWave Phase Shifts in Low Energy
N Scattering (with B. Stech), Phys. Rev. 133, B191 (1964).
Threshold effects

SMatrix Poles Close to Threshold (with W.R. Frazer), Phys. Rev. 134,
B1307 (1964).

Interpretation of the N
State as a J^{p}=1^{}/2 Resonance (with R.G. Moorhouse),
Phys.
Letts. 18, 171 (1965).
Regge theory

High Energy Ladder Diagrams and Regge Trajectories
(with J. Cumming), Phys. Letts. 2, 314 (1962).

On the Veneziano Formulation of
N Scattering (with S.T. Jones and H.W. Wyld, Jr.), Nucl. Phys.B15,
389 (1970).
SU(3) and higher symmetries

An Introduciton to Higher Symmetries, Rutherford Lab. Lecture Series,
RHEL
R/102 (1965).

Strangeness + 1 Baryons in U(6)
U(6) (with R.G. Moorhouse and J.E. Paton), Phys. Rev. 159,
1340 (1967).

The SU(3) Structure of J^{p}=3^{}/2 Baryons, Zeitschrift
fur Physik 206, 345 (1967).
Quark models

Bound States of a QuarkAntiquark System, Nuovo Cimento 43,
1191 (1966).

Mass Relations for the 56, 70 and 20 Representations in a Quark Model,
Nuovo
Cimento 48, 780 (1967).

Harmonic Oscillator Model for Baryons I (with D. Faiman), Phys. Rev.173,
1720 (1968).

Harmonic Oscillator Model for Baryons II (with D. Faiman), Phys. Rev.180,
1609 (1969).

Electromagnetic Decays of Baryon Resonances in the Harmonic Oscillator
Model (with D. Faiman), Phys. Rev. 180, 1572 (1969).

Nucleon Isobar Excitation in ^{+}p
Scattering (with J.S. Trefil), Phys. Rev. 184, 1680 (1969).

Metastable Exotic Mesons (with I. Hinchliffe), Phys. Rev. D18,
3453 (1978).

Hadron Mass Relations in a Charmed Quark Model with Broken SU(8) Symmetry
(with D.B. Lichtenberg), Phys. Rev. D12, 2756 (1975).

The Quark Model (with D.B. Lichtenberg), Rep. Prog. Phys.
41, 1707 (1978).

Properties of Hadrons in the Quark Model (with D.B. Lichtenberg), Fortschr.
der Physik 33, 1 (1985).
Impact parameter representation of high energy
scattering.

Model for Scattering at All Angles (with S.Y. Chu), Phys. Rev. Lett.25,
313 (1970).

Analysis of ^{+}p
Elastic Scattering at 2.74 to 4.0 GeV/c at All Angles (with S.Y. Chu),
Phys.
Rev. D4, 2743 (1971).

5 GeV/c Pion Nucleon Scattering at All Angles (with S.Y. Chu), Phys.
Rev. D4, 3282 (1971).

On the Equivalence of Regge and Optical Models, Phys. Rev, D5,
215 (1972).

Regge and Optical Models; Proceedings of ZGS Workshops (summer,
1971), Vol. I.

ProtonProton Polarization Data: Possible Evidence for Exotic Peripheral
Resonances (with S.Y. Chu), Phys. Rev. D6, 190 (1972).

A Unified Picture of ProtonProton Elastic Scattering at All Angles from
3 to 24 GeV/c (with T.Y. Cheng and S.Y. Chu), Phys. Rev. D7,
86 (1973).

Are Regge and Optical Models Equivalent, by an Amplitude Rotation?,
Phys.
Rev. D7, 910 (1973).

Theoretical Models for ProtonProton Elastic Polarization (with G.W. Abshire),
Phys.
Rev. D10, 3662 (1974).

Evidence for Coherent Effects in Large Angle HadronHadron Scattering,
Phys.
Rev. D10, 2300 (1974).

Peripheral Scattering and an SChannel Regge Approach to Particle Scattering
(with S.Y. Chu), AEC report C00200957.

Structures in ProtonProton Elastic Scattering and their Interpretation,
Proceedings
of the Argonne ZGS Workshop on Polarization Phenomena (July, 1974).

Measurement of the Depolarization Paramenter in Elastic ProtonProton Scattering
at 3 and 6 GeV/c (with G.W. Abshire et al.), Phys. Rev. D12,
3393 (1975).

Structure of A_{NN}(90°), Phys. Rev. D23, 2075
(1981).
High mass, high spin baryon resonances

A ^{+} Proton Partial Wave
Amplitude Analysis up to 10 GeV/c,
Proceedings of the Conference on
Baryon Resonances, Oxford University, England (1976) (ed. R.T. Ross
and D.H. Saxon) p. 29.

High Mass, High Spin Delta Resonances, Proceedings of the XVIII International
Conference on High Energy Physics, Tbilisi, USSR (1976), Vol. I, p.
C34.

The Importance of PionNucleon Polarization near the Backward Direction,
Proceedings
of the Symposium on High Energy Physics with Polarized Beams and Targets,
Argonne National Laboratory (1976) (ed. M.L. Marshak) American Institute
of Physics Conf. Proc. No. 35, p. 54.

Report of the Technical Advisory Panel on NucleonNucleon Scattering with
Polarized Beams and Targets (chairman), ANLHEPTR7819 (1978).

Analysis of PionNucleon Scattering up to 10 GeV/c, Phys. Rev. Lett.41,
222 (1978).

High Mass N* and *
Resonances, Invited Talk, Baryon 1980, Proc. IVth Intl. Conference on
Baryon Resonances (ed. N. Isgur) University of Toronto (1980), p. 113.

PionNucleon Scattering up to 10 GeV/c, Ann. Phys. (N.Y.) 136,
1 (1981).

Decays of HighSpin * and
N*
Resonances in the Quark Model,
Ann. Phys. (N.Y.) 140, 65
(1982).
Structure functions

Slopes, Coherence and Compositeness in High Energy
Collisions with Nuclei (with D. Lichtenberg and E. Predazzi), Nuovo
Cimento 77A, 147 (1983).

Ratio of the Nucleon Structure Function F_{2}
for Heavy Nuclei and Free Nucleons (with D.B. Lichtenberg and E. Predazzi),
Phys.
Lett. 136B, 433 (1984).

Dependence on Atomic Weight of the Ratio of the Structure
Functions for Bound and Free Nucleons (with D.B. Lichtenberg and E. Predazzi),
Nuovo
Cimento 92A, 427 (1986).
The solar neutrino puzzle

A Polytropic Solar Model, Amer. J. Phys. 61, 907 (1993).

Neutrinos in a Phenomenological Solar Model (with J. Tsai), report.
Teaching and historical articles

A Triple Rainbow? The Physics Teacher 41, 460 (November 2003)

We review the formation of rainbows and describe an experiment to demonstrate
rainbow angles.

Johannes Kepler and Extra Dimensions. The Physics Teacher 42, 108 (February 2004)

We illustrate the power of extra dimensions in terms of Kepler's model
of the solar system as he knew it.
 Newton's Apple,The Physics Teacher 45,294298 (2007).
 Where would the apple land? We follow the controversy between Hooke and Newton on this issue.

Recreational Impulses

By applying a graphical technique used by Hooke and Newton, we determine
the orbits that result from various forms of central forces.

Age of the Earth: The 'biblical' 6000 years

Details are presented of how James Ussher decided that Creation occurred
in the year 4004 BC.

Age of the Earth: Kelvin's 100 million years
 Kelvin's Relentless Pursuit of the Sun's Energy
 We follow Kelvin's twists and turns in midnineteenth century to identify the source
of the Sun's vast reservoir of energy.
