On p-adic mathematical physics

Драгович, Бранко; Khrennikov, Andrei; Козырев, С. В.; Волович, И. В.

doi:10.1134/s2070046609010014

Cited by 282 publications

(187 citation statements)

References 194 publications

(255 reference statements)

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“…Then this new Lagrangian becomes (20), and (2) g p = |r| p , where r may be any non zero rational number and it gives |r| ∞ p |r| p = 1 (this possibility was considered in [25]). Both these possibilities are consistent with adelic product formula (6). For simplicity, in the sequel we shall take C = ζ(2).…”

Section: Multiplicative Approachmentioning

confidence: 73%

“…From (6) follows that the ordinary Veneziano amplitude, which is rather complex, can be expressed as product of all inverse p-adic counterparts, which are much more simpler. Moreover, expression (6) gives rise to consider it as the amplitude for an adelic string, which is composed of the ordinary and p-adic ones.…”

Section: Introductionmentioning

confidence: 99%

“…Various p-adic structures have been observed and investigated not only in string theory but also in many other models of modern mathematical physics and related topics (see [4,5] for a review of early developments, and [6] for the most recent short overview of p-adic mathematical physics). For instance, in [7] was shown that degeneration of the genetic code has a p-adic structure.…”

Section: Introductionmentioning

confidence: 99%

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Towards effective Lagrangians for adelic strings

Драгович

2009

Fortschritte der Physik

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p-Adic strings are important objects of string theory, as well as of p-adic mathematical physics and nonlocal cosmology. By a concept of adelic string one can unify and simultaneously study various aspects of ordinary and p-adic strings. By this way, one can consider adelic strings as a very useful instrument in the further investigation of modern string theory. It is remarkable that for some scalar p-adic strings exist effective Lagrangians, which are based on real instead of p-adic numbers and describe not only four-point scattering amplitudes but also all higher ones at the tree level. In this work, starting from p-adic Lagrangians, we consider some approaches to construction of effective field Lagrangians for p-adic sector of adelic strings. It yields Lagrangians for nonlinear and nonlocal scalar field theory, where spacetime nonlocality is determined by an infinite number of derivatives contained in the operator-valued Riemann zeta function. Owing to the Riemann zeta function in the dynamics of these scalar field theories, obtained Lagrangians are also interesting in themselves. *

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Section: Multiplicative Approachmentioning

confidence: 73%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Towards effective Lagrangians for adelic strings

Драгович

2009

Fortschritte der Physik

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“…Заметим, что эта идея выска-зывалась в ранних работах по p-адической математической физике (библиографию см. в [2], [6]). …”

Section: заключительные замечанияunclassified

Об операторах координаты и импульса в $p$-адической квантовой механике

Zelenov¹

2010

ТМФ

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“…Our motivation to modify gravity in an analytic nonlocal way comes mainly from string theory, in particular from string field theory (see the very original effort in this direction in [3]) and p-adic string theory [15,38,39,40,65]. Since strings are one-dimensional extended objects, their field theory description contains spacetime nonlocality expressed by some exponential functions of d'Alembert operator .…”

Section: Nonlocal Modified Gravitymentioning

confidence: 99%

On Nonlocal Modified Gravity and Its Cosmological Solutions

Dimitrijevic

Драгович

Stanković

et al. 2016

Springer Proceedings in Mathematics &Amp; Statistics

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During hundred years of General Relativity (GR), many significant gravitational phenomena have been predicted and discovered. General Relativity is still the best theory of gravity. Nevertheless, some (quantum) theoretical and (astrophysical and cosmological) phenomenological difficulties of modern gravity have been motivation to search more general theory of gravity than GR. As a result, many modifications of GR have been considered. One of promising recent investigations is Nonlocal Modified Gravity. In this article we present a brief review of some nonlocal gravity models with their cosmological solutions, in which nonlocality is expressed by an analytic function of the d'Alembert-Beltrami operator . Some new results are also presented.

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On p-adic mathematical physics

Cited by 282 publications

References 194 publications

Towards effective Lagrangians for adelic strings

Towards effective Lagrangians for adelic strings

Об операторах координаты и импульса в $p$-адической квантовой механике

On Nonlocal Modified Gravity and Its Cosmological Solutions

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