Linear relations and their breakdown in high energy massive string scatterings in compact spaces

Lee, Jen-Chi; Yang, Yi

doi:10.1016/j.nuclphysb.2007.06.005

Cited by 14 publications

(36 citation statements)

References 33 publications

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“…In the Gross regime (GR), for each fixed mass level with given quantized and winding momenta nR , we obtain infinite linear relations among high energy scattering amplitudes of different string states. Moreover we discover that, for some kinematic regime, the so called Mende regime (MR), infinite linear relations with N R = N L break down and, simultaneously, the amplitudes enhance to power-law behavior [19]. It is the space-time T-duality symmetry that plays a role here.…”

Section: Introduction and Overviewmentioning

confidence: 91%

“…One way to justify this conjecture (that is: the coexistence of the infinite linear relations and the softer exponential fall-off behavior of high energy string scatterings) is to find more examples of high energy string scatterings, which show the unusual hard power-law behavior and, simultaneously, give the breakdown of the infinite linear relations. With this in mind, in this report [19] we calculate high energy, fixed angle massive scattering amplitudes of closed bosonic string compactified on the torus [20]. In the Gross regime (GR), for each fixed mass level with given quantized and winding momenta nR , we obtain infinite linear relations among high energy scattering amplitudes of different string states.…”

Section: Introduction and Overviewmentioning

confidence: 99%

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Power-law behavior of high energy string scatterings in compact spaces

Jc¹,

Yang²

2008

J. Phys.: Conf. Ser.

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Abstract. We calculate high energy massive scattering amplitudes of closed bosonic string compactified on the torus. We obtain infinite linear relations among high energy scattering amplitudes. For some kinematic regimes, we discover that some linear relations break down and, simultaneously, the amplitudes enhance to power-law behavior due to the space-time T-duality symmetry in the compact direction. This result is consistent with the coexistence of the linear relations and the softer exponential fall-off behavior of high energy string scattering amplitudes as we pointed out prevously. It is also reminiscent of hard (power-law) string scatterings in warped spacetime proposed by Polchinski and Strassler.

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Section: Introduction and Overviewmentioning

confidence: 91%

Section: Introduction and Overviewmentioning

confidence: 99%

Power-law behavior of high energy string scatterings in compact spaces

Jc¹,

Yang²

2008

J. Phys.: Conf. Ser.

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“…Following the suggestion of Mende [62], the authors In [2,3] calculated high energy massive scattering amplitudes of bosonic string with some coordinates compactified on the torus [2,3]. Infinite linear relations among high energy scattering amplitudes of different string states in the Hard scattering limit were obtained.…”

Section: For Both Cases Of O-particle and O-domain-wall Scatterings mentioning

confidence: 99%

“…In [2,3], for string scatterings in the compact space, the authors discovered the existence of a power-law regime at fixed angle and simultaneously the linear relations (symmetry) break down in this regime.…”

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confidence: 99%

Overview of High Energy String Scattering Amplitudes and Symmetries of String Theory

Lee

Yang

2019

Symmetry

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We overview symmetries of string scattering amplitudes in the high energy limits of both the fixed angle or Gross regime (GR) and the fixed momentum transfer or Regge regime (RR). We calculated high energy string scattering amplitudes (SSA) at arbitrary mass levels for both regimes.We discovered the infinite linear relations among fixed angle string amplitudes and the infinite recurrence relations among Regge string amplitudes. The linear relations we obtained in the GR corrected the saddle point calculations by Gross, Gross and Mende. In addition, for the high energy closed string scatterings, our results differ from theirs by an oscillating prefactor which was crucial to recover the KLT relation valid for all energies.We showed that all the high energy string amplitudes can be solved by the linear or recurrence relations so that all the string amplitudes can be expressed in terms of a single string amplitude.We further found that, at each mass level, the ratios among the fixed angle amplitudes can be extracted from the Regge string scattering amplitudes.Finally, we review the recent developments on the discovery of infinite number of recurrence relations valid for all energies among Lauricella SSA. The symmetries or relations among SSA at various limits obtained previously can be exactly reproduced. It leads us to argue that the known SL(K + 3, C) dynamical symmetry of the Lauricella function maybe crucial to probe spacetime symmetry of string theory.

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“…These two regimes represent two different high energy perturbation expansions of the scattering amplitudes, and contain complementary information of the theory. The high energy string scattering amplitudes in the GR [1][2][3] were recently intensively reinvestigated for massive string states at arbitrary mass levels [4][5][6][7][8][9][10][11][12][13]. See also the developments in [14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Massive superstring scatterings in the Regge regime

Lee

Takahashi

et al. 2011

Phys. Rev. D

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We calculate four classes of high energy massive string scattering amplitudes of fermionic string theory at arbitrary mass levels in the Regge regime (RR). We show that all four leading order amplitudes in the RR can be expressed in terms of the Kummer function of the second kind.Based on the summation algorithm of a set of extended signed Stirling number identities, we show that all four ratios calculated previously by the method of decoupling of zero-norm states among scattering amplitudes in the Gross Regime (GR) can be extracted from this Kummer function in the RR. Finally, we conjecture and give evidences that the existence of these four GR ratios in the RR persists to subleading orders in the Regge expansion of all high energy fermionic string scattering amplitudes. * Electronic address: hesong@ihep.ac.cn † Electronic address:

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Linear relations and their breakdown in high energy massive string scatterings in compact spaces

Cited by 14 publications

References 33 publications

Power-law behavior of high energy string scatterings in compact spaces

Power-law behavior of high energy string scatterings in compact spaces

Overview of High Energy String Scattering Amplitudes and Symmetries of String Theory

Massive superstring scatterings in the Regge regime

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