Studies in Quantum mechanical Collisions with special reference to scattering and photo production of Pions from Nuclei

Devanathan, V.

dc.contributor.author	Devanathan, V.
dc.date.accessioned	2009-07-15T05:34:20Z
dc.date.available	2009-07-15T05:34:20Z
dc.date.issued	2009-07-15T05:34:20Z
dc.date.submitted	1963
dc.identifier.uri	https://dspace.imsc.res.in/xmlui/handle/123456789/25
dc.description.abstract	This thesis consists of three parts, first deals with the Rearrangement Collisions, the second with the Scattering and Photoproduction of Pions from Nuclei and the third with Some problems in electrodynamics and Deuteron disintegration processes. Collision problems can be categorized into two broader classifications, based on the nature of the complications involved; One belongs to the High Energy Physics domain, deals with the elementary particle interactions, strong interactions involving the production of strange particles; The other deals with comparatively low energy collisions involving complex nuclei. This thesis mainly focuses the later class of problems, and in particular the rearrangement collisions, the scattering and photoproduction of pions from nuclei.	en_US
dc.description.tableofcontents	CONTENTS Introduction Pg.1 PART I : Rearrangement Collisions Chapter 1 Pg.10 A time dependent approach to rearrangement collisions Chapter II Pg.24 Some specific processes of rearrangement collisions PART II : Scattering and Photo Production of Pions from Nuclei Chapter III Pg. 42 Outline of the Method Chpater IV Pg.55 Scattering of Pions by Deuterons Chapter V Pg.84 Photoproduction of Pions from Deuterium Chapter VI Pg.109 Photoproduction of charged pions from Nuclei I – On the magnetic moment term Chapter VII Pg.124 Photoproduction of charged pions from Nuclei II – General Theory Chapter VIII Pg.152 Scattering of pions from complex Nuclei PART III ElectroDynamic and Deuteron Disintegration Processes Chapter IX Pg.166 On the equivalence of Field theoretic and Feynman formalisms Chapter X Pg.179 On the equal time commutator in electrodynamic processes Chapter XI Pg.196 Disintegration processes in Deuterium	en_US
dc.publisher.publisher	IMSc
dc.relation.isbasedon	A. Agodi, and E. Eberle, Nuovo Cimento, v.18. 718, (1960) A. de Shalit, Helve. Phys. Acta, v.24, 296, (1951) A. Ramakrishnan, & N.R. Ranganathan, Stochastic methods in Quantum mechanics, J.Math.Anal.&Appln., v.3, 261, (1961) A. Ramakrishnan, Elementary particles and cosmic rays: Pergamon, (1962) A. Ramakrishnan, G. Bhamathi and S. Indumathi, Proc. Ind. Acad. Sc., v.53, 306, (1961) A. Ramakrishnan, G. Ramachandran, and V.Devanathan, Nuovo Cimento, v.21, 145, (1961) A. Ramakrishnan, K. Venkatesan and V. Devanathan, J. Math. Anal. and Appln.(In Press) A. Ramakrishnan, N.R. Ranganathan, J. Math. Anal. And Application, v.3, 261, (1961) A. Ramakrishnan, T.K. Radha, and R. Thunga, J. Math. Anal. And Appln. V.4, 494, (1962) A. Ramakrishnan, T.K.Radha and R. Thunga, Proc. Ind. Acad, Sci.,v.52, 228, (1960) A. Ramakrishnan, V. Devanathan, and G. Ramachandran, Nuclear Phys., v.24, 163, (1961) A. Ramakrishnan, V. Devanathan, and K. Venkatesan, Nuclear Phys. v.29, 680, (1962) A. Ramakrishnan. T.K. Radha, and R. Thunga, The physical basis of Quantum field theory, J. Math. Anal. & -Appln., v.4, 494, (1962) A.M. Lane and R.G. Thomas, Rev. Mod. Phys. v.30, 257, (1958) A.N.Sachs, H. Winick, and B.A. Wooten, Phys. Rev., v.109, 1733, (1958) A.R. Edmonds, and B.H. Flowers, Proc. The Royal Soc.(Lond.), A, v.214, 515, (1952) Austern, Butler, and McManus, Phys. Rev., v.92, 350, (1953) B. Lippmann, and J. Schwinger, Phys. Rev., v.79, 469, (1950) B. Wolfe, A.J. Silverman and J.W.DeWire, Phys. Rev. v.99, 268, (1955) B.A. Lippmann, and J. Schwinger, Phys. Rev., v.79, 469, (1950) B.A. Lippmann, Phys. Rev., v.102, 264,(1956) B.H. Bransen, and R.G. Moorhouse, Nucl.Phys. v.6, 310, (1958) Bernardini, Booth, Lederman and Tinlot, Phys,. Rev., v.82, 105, (1951) Bernardini, Booth, Lederman, Phys,. Rev., v.83, 1075,1277, (1951) Byfield, Kessler, Lederman, Phys. Rev., v.86, 17, (1952) C. Moler, Kgl. Danske, vid. Selsk, v.23, No.1, (1945) C.A. Levinson, and M.K. Banerjee, Annals of Physics, v.2, 471, 499, (1957) C.A. Levinson, and M.K. Banerjee, Annals of Physics, v.3, 67, (1958) Durand III, Phys. Rev., v.115, 1020, (1959) Durand III, Phys. Rev., v.123, 1393, (1961) E. Arase, G. Golhaber, and S. Goldhaber, Phys. Rev. v.90, 160, (1953) E. Feenberg, Shell theory of the nucleus: PUP, p.45, (1955) E. Gerjuoy, Annals of Physics, v.5, 58, (1958) E.G. Pewitt et al., Proc. of the 1960 Annual international conf. On HEP, Rochester, p.196, (1960) E.P. Wigner, Phys. Rev. v.72, 29, (1947) E.R. Cainiello, Nuovo Cimento, v.14, 185, (1959) E.W. Leing and R.G.Moorhouse, Proc. Phys. Soc. A. v.72, 259, (1958) E.W. Leing, and R.G.Moorhouse, Proc. phys. soc, A, v.70, 629,(1957) F. Bloch, Phys. Rev., v.83, 839, (1951) F.E. Low, Phys. Rev., v.97, 1392, (1955) F.E. Low, Summer Institute Lectures, (1951) F.J. Dyson, Advanced Quantum mechanics, Lithoprinted Notes, Cornell Univ., (1951) F.J. Dyson, Phys.Rev. v.82, 428, (1951) F.J. Dyson, Phys.Rev. v.83, 608,1207, (1951) G. Breit, and E.P.Wigner, Phys. Rev. v.49, 519, (1936) G. Racah, Group theory and Spectroscopy, Mimeographed Lecture notes: Princeton, (1951) G. Racah, Phys. Rev., v.62, 438, (1942) G. Racah, Phys. Rev., v.76, 1352,(1949) G. Salzman, and F. Salzman, Phys. Rev. v.108, 1619, (1957) G. Saphir, Phys. Rev., v.104, 535, (1956) G.C. Wick, Phys. Rev., v.80, 268, (1950) G.F. Chew and M. L. Goldberger, Phys. Rev., v.87, 778 (1952) G.F. Chew, and F.E. Low, Phys. Rev. v.101, 1570, (1956) G.F. Chew, and F.E. Low, Phys. Rev., v.101, 1579, (1956) G.F. Chew, and G.C. Wick, Phys. Rev. v.85, 636, (1952) G.F. Chew, F.E. Low, M.L.Goldberger, and Y. Nambu, Phys. Rev. v.106, 1345, (1957) G.F. Chew, Handbuch der Physik: Springer, v.43, (1959) G.F. Chew, M.L.Goldberger, Steinberger and C.N. Yang, Phys. Rev., v.84, 581, (1951) G.F. Chew, Phys. Rev., v.80, 196,(1950) G.P. Chew, and H.W. Lewis, Phys. Rev. v.84, 779, (1951) Gell-Mann, and M.L. GoldnergerPhys. Rev. v.91, 398, (1953) George, Proc. Phys. Soc., A. v.69, 110, (1956) H. Feshbach, Annals of Physics, v.5, (1958) H. Feshbach, C.E. Porter and V.F. Weisskopf, Phys. Rev.,v.96, 448, (1954) H. L. Davis, and D.R. Gorann, Phys. Rev. v.99, 273, (1955) H. Miyazawa, Prog. Theor. Phys., v.6, 253, (1961) H.A. Jahn, H. Van Wiergngen,Proc. The Royal Soc.(Lond.), A, v.209, 502, (1951) H.A. Jahn, Proc. The Royal Soc.(Lond.), A, v.209, 192, (1951) I.S. Hughes, and P.V. March, Proc. phys. soc, A, A.72 v.259,(1958) J. Steinberger, and A. Bishop, Phys. Rev. v.78, 494, (1950) J.C. Slater, Quantum Theory of Atomic Structure, v.II, McGraw-Hill,(1960) J.C. Taylor, Lectures on dispersion relations, Rochester University, 1960 J.F. Tracy, Phys. Rev., v.91, 960, (1953) J.M. Lane and D.H. Wilkinson, Phys. Rev. v.97, 1199, (1955) J.O. Kessler, and L.M. Lederman, Phys. Rev. v.94, 689, (1954) J.P. Elliot and A.M. Lane, Handbuch der Physik: Springer, v.39, p.248, (1957) J.P. Elliot, A.N. Lane, Handbuch der Physik, v.39: Springer 264(1957) J.P. Elliot, and A.M. Lane, Handbuch der Physik: Springer, p.394, (1957) J.W. Rosengran, and N. Baron, Phys. Rev., v.101, 410, (1956) J.W. Stephenson, and K. Smith, Tables of the Wigner 9-j coefficients: North Carolina state College, Rayleigh, (1957) James, E. Yound, Phys., Rev., v.116, 1201, (1959) John Chaplear, Phys. Rev., v.99, 254, (1955) K.A. Brueckner, Phys. Rev., v.89, 834, (1953) K.A. Brueckner, Phys. Rev., v.90, 715, (1953) K.C Rogers, and L.M. Ledermann, Phys. Rev. v.105, 247, (1957) K.M. Watson, Phys. Rev., Phys. Rev., v.88, 1163, (1952) K.M. Watson, Phys. Rev., v.95, 228, (1954) L. Fonda, and R.G. Newton, Annals of Physics, v.10, 490(1960) L.D.Pearlstein and A. Klien, Phys. Rev., v.108, 193, (1960) L.S. Dulkova, I.E. Sokolova and M.G. Shapranova, Soviet Phys., JETP, v.8, 217, (1959) L.S. Kisslinger, Phys. Rev., v.98, 761, (1955) M. Gell-Mann and M.L. Goldberger, Phys. Rev., v.91, 398, (1953) M. Lax and H. Feshbach, Phys. Rev., v.88, 509, (1952) M. Rotenberg, et al., The 3-j and 6-j Symbols: M.I.T., Cambridge, (1959) M. Sano, S. Yoshida, and T. Teresawa, Nuclear Physics, v.6, 20(1958) M.L Goldberger, et al., Ann. Phys., v.2, 226, (1957) M.L. Goldberger, Phys. Rev., v.9, 979, (1955) N. Austern, Direct Reaction theories, in Fast Neutron Physics: Interscience Pub. NY, (1960), Ch.5 N. Bohr, Nature, v.137, 344, (1936) N.C. Francis, K.M. Watson, Phys. Rev., v.93, 313, (1954) N.H. Heckman, and L.E. Bailey, Phys. Rev. v.91, 1237, (1953) P.V. March and T.G. Walker, Proc. Phys. Soc., v.77, 293, (1961) P.V. March, and T.G.Walker, Proc., Phys. Soc. , v.72, 293, (1961) Pevsner, Rainwater,Williams, and Lindenbaum, Phys. Rev., v.100, 1419,(1955) Proc. Royal Soc. (London) A, v. 207, 395, (1961) R.A. Mann, and M.E. Rose, Phys. Rev. 121, 293, (1961) R.F. Mozley, Phys. Rev., v.80, 493, (1950) R.H. White, M.J. Jacobson, and A.G. Schultz, Phys. Rev., v.88, 836, (1952) R.M. Frank, J.L. Gamel, and K.M. Watson, Phys. Rev. 101, 891, (1953) R.M. Littauer, and D. Walker, Phys. Rev. v.83, 206, (1956) R.M. Littauer, and D. Walker, Phys. Rev. v.86, 838, (1952) R.M. Rockmore, Phys. Rev. v.105, 256, (1957) R.P. Feynman, Quantum Electrodynamics, Lecture Notes, Caltech (1953) R.R. Wilson, Phys. Rev.,v.86, 125, (1952) Robert H. Land, Phys. Rev., v.113, 1141, (1959) S. Fernbach, T.A.Green, and K.M. Watson, Phys. Rev., v.80, 1084, (1951) S. Fubini, et al., Phys. Rev., v.111, 329, (1958) S. Gasiorowicz, Fortschritte der Physik, v.8, 665, (1960) S. Madelstam, Phys. Rev., v.112, 1344, (1958) S. Sunakawa, Prog. Theor. Phys., v.24, 963,(1960) S.D. Drell, J.D. Walecka, Phys. Rev. v.120, 1069, (1960) S.D.Drell and D.Verlet, Phys. Rev., v.99, 849, (1956) S.Fernbach, R. Serber and T.B. Taylor, Phys. Rev. v.75, 1352, (1949) S.S. Scheweber, H.A. Bethe, and F.D. Hoffmann, Mesons and Fields, v.1, p.207, (1956) S.S. Schweber, H.A. Bethe, and F.D. Hoffmann, Mesons and Fields, v.1: Row, Peterson&Co., p.192, (1956) S.T. Butler, N. Austern, and C. Pearson, Phys. Rev. v.112, 1227, (1958) S.T. Butler, Phys. Rev., v.87, 1117, (1952) S.T. Butler, Proc. Roy. Soc. A, v.202, 559, (1951) Stuckeberg, Ann. Der Phys., v.21, 367, (1934) Stuckeberg, Helv. Phys. Act., v.17, 43, (1943) Stuckeberg, Nature, v.153, 143, (1944) T.A. Green, Phys. Rev., v.90, 161, (1953) T.B. Day, L.S. Rodberg, G.A. Snow, and J.Sucher, Phys. Rev., v.123, 1051, (1961) T.F. Fijii, Phys. Rev., v.113, 695, (1959) T.Izhiduzu, Ed., Tables of te Racah Coefficients: Pan Pacific, Tokyo, (1960) V. de Alfaro, and R. Stroffolini, Nuovo Cimento, v.11, 447, (1959) V. Devanathan, and G. Ramachandran, Nuclear Physics, (In Press) V. Devanathan, and G.Ramachandran, Nucl. Phys., v.23, 312, (1961) V. Devanathan, and G.Ramachandran, Nucl. Phys., v.38, 654, (1962) V. Devanathan, and K. Venkatesan, Presentation at Summer School in theoretical physics, Simla, (1962) V. Devanathan, Nuclear Phys. (In Press) V.Devanathan and R.Ramachandran, Nucl. Phys. v.23, 312, (1961) V.I. Serdobolsky, Nuclear Physics, v.21, 245,(1960) V.P. Dzhelepov, et al., JETP, v.4, 864, (1957) V.Z. Jankus, Phy. Rev., v.102, 1586, (1956) W.F. Baker, H. Byfield and J. Rainwater, Phys. Rev. v.112, 1773, (1958) W.F. Baker, J. Rainwater, and R.E. Williams, Phys. Rev., v.112, 1763, (1958) W.M. Frank, Annals of Physics, v.17, 205, (1962) W.R. Hogg, and D. Sinclair, Phil. Mag. Series 8, v.1, 466, (1956) Williams, Baker, and Rainwater, Phys. Rev., v.104, 1695, (1956) Williams, Rainwater, and Pevsner, Phys. Rev., v.101, 412, (1956) Y. Saito, Y. Watanabe and Y. Yamaguchi, Prog. Theor. Phys., v.7, 103, (1952)	en_US
dc.subject	Particle Physics	en_US
dc.subject	Quantum Mechanics	en_US
dc.subject	Scattering Theory	en_US
dc.title	Studies in Quantum mechanical Collisions with special reference to scattering and photo production of Pions from Nuclei	en_US
dc.type.degree	Ph.D	en_US
dc.type.institution	University of Madras	en_US
dc.description.advisor	Ramakrishnan, Alladi
dc.description.pages	iii; 208p.	en_US
dc.type.mainsub	Physics	en_US