Advertisement

2.4.2 Meson-nucleon coupling constants

2.4 Further results derived from pi N partial waves
  • G. Höhler
Chapter
Part of the Landolt-Börnstein - Group I Elementary Particles, Nuclei and Atoms book series

Abstract

Summary

This document is part of Subvolume B2 ‘Pion Nucleon Scattering. Part 2: Methods and Results of Phenomenological Analyses’ of Volume 9 ‘Elastic and Charge Exchange Scattering of Elementary Particles’ of Landolt-Börnstein - Group I Elementary Particles, Nuclei and Atoms.

Keywords

Elastic and Charge Exchange Scattering of Elementary Particles Pion Nucleon Scattering. Part 2: Methods and Results of Phenomenological Analyses 

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

3.1 Books, reviews and lecture notes

  1. 69LCHU.
    VENEZIANO-TYPE REPRESENTATION FOR PI N AMPLITUDES S. CHU, B.R. DESAI:PHYS.REV.188(1969)2215 2.6.5CrossRefADSGoogle Scholar
  2. 69LBERGER.
    PION-NUCLEON AND KAON-NUCLEON SCATTERING IN THE VENEZIANO MODEL E.L. BERGER, G.C. FOX:PHYS.REV.188(1969)2120 2.6.5CrossRefADSGoogle Scholar
  3. 70LFENSTER.
    PION-NUCLEON SCATTERING WITH VENEZIANO TERMS S. FENSTER, K.C. WALI:PHYS.REV.D1(1970)1409 2.6.5ADSGoogle Scholar
  4. 70LHENDRY.
    ON THE VENEZIANO FORMULATION FOR PION-NUCLEON SCATTERING A.W. HENDRY, S.T. JONES, H.W. WYLD:NUCL.PHYS.B15(1970)389 2.6.5CrossRefADSGoogle Scholar
  5. 73LODORICO.
    SUPPRESSION OF RESONANCE COUPLINGS AS GAUGE-LIKE CONDITIONS FROM DUAL RESONANCE MODELS R. ODORICO:PHYS.REV.D8(1973)3952 2.4.3; 2.6.5ADSGoogle Scholar
  6. 64LHUEPER.
    CONSISTENCY OF NEW PI N PHASE SHIFT ANALYSES R. HUEPER:Z.PHYSIK 181(1964)426 2.4.2CrossRefADSGoogle Scholar
  7. 72LPAZMAN.
    TESTING OF ANALYTICITY OF PI N FORWARD AMPLITUDES A. PAZMAN, J. PISUT, P. PRESNAJDER, P. LICHARD:NUCL.PHYS.B46(1972)637 A.6.3; 2.4.7CrossRefADSGoogle Scholar
  8. 67RHAMILTON-1.
    PION-NUCLEON INTERACTIONS J. HAMILTON IN:"HIGH ENERGY PHYSICS",VOL.1,P.193;ED.E.H.S. BURHOP;ACADEMIC PRESS(1967) A.7Google Scholar
  9. 72RHAMILTON-TROMBORG.
    PARTIAL WAVE AMPLITUDES AND RESONANCE POLES J. HAMILTON, B. TROMBORG;OXFORD UNIV.PRESS(1972) A.7; 2.4.1; 2.4.2Google Scholar
  10. 80LHUTT.
    EVALUATION OF PI N PARTIAL WAVE DISPERSION RELATIONS USING NEW PHASE SHIFT RESULTS M. HUTT, R. KOCH:KARLSRUHE PREPRINT TKP 80-25(1980) A.7.1Google Scholar
  11. 81LHUTT.
    IS THERE EVIDENCE FOR STRONG VAN DER WAALS FORCES IN PI N SCATTERING? M. HUTT, R. KOCH:PHYS.LETT.105B(1981)227 A.7.1ADSGoogle Scholar
  12. 70LADAMOVICH.
    DIFFERENTIAL CROSS SECTIONS FOR PHOTOPRODUCTION OF MESONS ON PROTONS AT 165–230 MEV M.I. ADAMOVICH ET AL.:SOV.J.NUCL.PHYS.7(1970)360 2.4.2Google Scholar
  13. 78LMCCLASKEY.
    APPLICATION OF INTERIOR DISPERSION RELATIONS TO PION PHOTOPRODUCTION NEAR THRESHOLD R. MC CLASKEY, R.J. JACOB, G. HITE:PHYS.REV. D18(1978)660 2.4.2ADSGoogle Scholar
  14. 62LATKINSON.
    PREDICTION OF PION PHASE SHIFTS D. ATKINSON:PHYS.REV.128(1962)1908 A.6.9; 2.4.6; 2.6.7CrossRefADSGoogle Scholar
  15. 69RLOVELACE.
    PION-NUCLEON PHASE SHIFT ANALYSIS AND PHENOMENOL OGICAL DISPERSION RELATIONS C. LOVELACE IN "PION-NUCLEON SCATTERING";EDS. G. SHAW, Y. WONG;WILEY(1969) 2.1.5; A.6.9; 2.6.7Google Scholar
  16. 76LKAISER.
    HIGHER SPIN EXCHANGE IN PI PI → NUCLEON ANTINUCLEON SCATTERING F. KAISER, E. BORIE, G. HOEHLER:PHYS.LETT.62B (1976)441 2.4.2; A.6.7; 2.4.6; 2.6.7ADSGoogle Scholar
  17. 77LBORIE.
    A STUDY OF PI PI → N ANTI N PARTIAL-WAVE AMPLITUDES USING INTERIOR DISPERSION RELATIONS E. BORIE, F. KAISER:NUCL.PHYS.B126(1977)173 A.6.7; 2.4.2; 2.4.6; 2.6.7CrossRefADSGoogle Scholar
  18. 78LKAISER.
    EVALUATION OF PI N INTERIOR DISPERSION RELATIONS WITH KH 78 PHASE SHIFTS F. KAISER:KARLSRUHE PREPRINT TKP 78-23,1978 2.4.2Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg  1983

Authors and Affiliations

  • G. Höhler

There are no affiliations available

Personalised recommendations