Dual resonance model explained

In theoretical physics, a dual resonance model arose during the early investigation (1968–1973) of string theory as an S-matrix theory of the strong interaction.

Overview

The dual resonance model was based upon the observation that the amplitudes for the s-channel scatterings matched exactly with the amplitudes for the t-channel scatterings among mesons and also the Regge trajectory. It began with the Euler beta function model of Gabriele Veneziano in 1968 for a 4-particle amplitude which has the property that it is explicitly s–t crossing symmetric, exhibits duality between the description in terms of Regge poles or of resonances, and provides a closed-form solution to non-linear finite-energy sum rules relating s- and t- channels.

The Veneziano formula was quickly generalized to an equally consistent N-particle amplitude^[1] for which Yoichiro Nambu,^[2] Holger Bech Nielsen,^[3] and Leonard Susskind^[4] provided a physical interpretation in terms of an infinite number of simple harmonic oscillators describing the motion of an extended one-dimensional string, hence came the name "string theory."

The study of dual resonance models was a relatively popular subject of study between 1968 and 1973.^[5] It was even taught briefly as a graduate level course at MIT, by Sergio Fubini and Veneziano, who co-authored an early article.^[6] It fell rapidly out of favor around 1973 when quantum chromodynamics became the main focus of theoretical research^[7] (mainly due to the theoretical appeal of its asymptotic freedom).^[8]

See also

• QCD string
• Lund string model

References

• Book: Rickles. 2014. A Brief History of String Theory: From Dual Models to M-Theory. Springer. 978-3-642-45128-7. Dean Rickles.

Further reading

• Book: Paul H. Frampton . Paul Frampton . Dual Resonance Models . Frontiers in Physics . 1974 . 0-8053-2581-6.

Notes and References

1. Koba . Z. . Nielsen . H.B. . Reaction amplitude for n-mesons a generalization of the Veneziano-Bardakçi-Ruegg-Virasoro model . Nuclear Physics B . Elsevier BV . 10 . 4 . 1969 . 0550-3213 . 10.1016/0550-3213(69)90331-9 . 633–655.
2. Nambu, Y. (1970). "Quark model and the factorization of the Veneziano amplitude." In R. Chand (ed.), Symmetries and quark models (pp. 269–277). Singapore: World Scientific.
3. Nielsen, H. B. "An almost physical interpretation of the dual N point function." Nordita preprint (1969); unpublished.
4. Susskind . Leonard . Leonard Susskind. Structure of Hadrons Implied by Duality . Physical Review D . American Physical Society (APS) . 1 . 4 . 1970-02-15 . 0556-2821 . 10.1103/physrevd.1.1182 . 1182–1186.
5. Rickles 2014, pp. 5–6, 44.
6. Fubini . S. . Veneziano . G. . Level structure of dual-resonance models . Il Nuovo Cimento A . Springer Science and Business Media LLC . 64 . 4 . 1969 . 0369-3546 . 10.1007/bf02758835 . 811–840. 119009821 .
7. Rickles 2014, p. 77.
8. Rickles 2014, p. 11 n. 22.