Chaotic scattering of highly excited strings

Gross, David J.; Rosenhaus, Vladimir

doi:10.1007/jhep05(2021)048

Cited by 35 publications

(23 citation statements)

References 97 publications

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“…Our studies thus provide a long term motivation for future research to develop techniques that can deal with string theory on highly curved background, with flux, and including highly excited stringy states, for the purposes of a direct verification of the conjecture (1.6) as well as the complete determination of string amplitudes including the phase angles. Some recent studies concerning highly excited strings are [34,35]. For the moment, our verifications of non-negativity on the gauge theory side provide indirect non-trivial evidence of the conjecture (1.6).…”

Section: More On the Physical Motivationsupporting

confidence: 52%

Non-negativity of BMN two-point functions with three string modes

Huang

2021

J. High Energ. Phys.

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Recently, we proposed a novel entry of the pp-wave holographic dictionary, which equated the Berenstein-Maldacena-Nastase (BMN) two-point functions in free $$ \mathcal{N} $$ N = 4 super-Yang-Mills theory with the norm squares of the quantum unitary transition amplitudes between the corresponding tensionless strings in the infinite curvature limit, for the cases with no more than three string modes in different transverse directions. A seemingly highly non-trivial conjectural consequence, particularly in the case of three string modes, is the non-negativity of the BMN two-point functions at any higher genus for any mode numbers. In this paper, we further perform the detailed calculations of the BMN two-point functions with three string modes at genus two, and explicitly verify that they are always non-negative through mostly extensive numerical tests.

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Section: More On the Physical Motivationsupporting

confidence: 52%

Non-negativity of BMN two-point functions with three string modes

Huang

2021

J. High Energ. Phys.

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“…It is worth noticing that by "chaotic picture" we mean not the exponential growth of the out-of-time-ordered correlators (OTOC), but the erratic behaviour of the energy revivals and oscillations. The notion of the chaotic behaviour in this sense has been studied in quantum mechanics, scattering amplitudes, string theory and two-dimensional CFT, see for example [47][48][49][50][51][52]. It would be interesting to extend this understanding somehow, and we leave this for future research.…”

Section: Finite-volume Dynamics For Massive Theoriesmentioning

confidence: 99%

From locality to irregularity: Introducing local quenches in massive scalar field theory

Ageev¹,

Belokon²,

V.³

2022

Preprint

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In this paper, we initiate the study of the local quenches in non-conformal field theories. In particular, we consider the dynamics of excited local states in massive scalar field theory in an arbitrary spacetime dimension and generalize the well-known two-dimensional CFT results. We derive the energy density, U (1)-charge density and φ 2 (x)-condensate post-quench dynamics and identify different regimes of their evolution depending on the values of the field mass and the quench regularization parameter. For massless higher-dimensional local quenches we briefly compare the obtained free theory formulae with the available holographic results. We also investigate the local quenches in massive scalar field theory on a cylinder and show that they cause unexpected erratic and chaotic-like evolution of observables with a complicated localization/delocalization pattern of their dynamics.

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“…The study of amplitudes involving more than one excited string is challenging and is largely left to future work; in [42] we compute the simplest amplitude, the three-point amplitude, in which all three strings are excited. 5 , 6…”

Section: Scattering Of Highly Excited Stringsmentioning

confidence: 99%

“…This is consistent with the Horowitz-Polchinski correspondence as the Hagedorn temperature is 1/ √ α , which coincides with the Bekenstein-Hawking temperature, 1 GM , since G ∼ g 2 s α and M ∼ N/α , which agree when g s ∼ N − 1 4 . Using the methods presented here allows one to compute the exclusive amplitudes of a particular heavy string decaying into a particular heavy string and a photon [42]. Averaging should of course reproduce the blackbody spectrum, but the exclusive amplitude will give much more: it will allow one to see precisely how the radiation differs for each string microstate, the string analog of the long sought goal of extracting information from Hawking radiation.…”

Section: The Decaying String and Black Body Radiationmentioning

confidence: 99%

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Chaotic scattering of highly excited strings

Gross,

Rosenhaus

2021

Preprint

Self Cite

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Motivated by the desire to understand chaos in the S-matrix of string theory, we study tree level scattering amplitudes involving highly excited strings. While the amplitudes for scattering of light strings have been a hallmark of string theory since its early days, scattering of excited strings has been far less studied. Recent results on black hole chaos, combined with the correspondence principle between black holes and strings, suggest that the amplitudes have a rich structure. We review the procedure by which an excited string is formed by repeatedly scattering photons off of an initial tachyon (the DDF formalism). We compute the scattering amplitude of one arbitrary excited string and any number of tachyons in bosonic string theory. At high energies and high mass excited state these amplitudes are determined by a saddle-point in the integration over the positions of the string vertex operators on the sphere (or the upper half plane), thus yielding a generalization of the "scattering equations". We find a compact expression for the amplitude of an excited string decaying into two tachyons, and study its properties for a generic excited string.We find the amplitude is highly erratic as a function of both the precise excited string state and of the tachyon scattering angle relative to its polarization, a sign of chaos.

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Chaotic scattering of highly excited strings

Cited by 35 publications

References 97 publications

Non-negativity of BMN two-point functions with three string modes

Non-negativity of BMN two-point functions with three string modes

From locality to irregularity: Introducing local quenches in massive scalar field theory

Chaotic scattering of highly excited strings

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