2018
DOI: 10.1103/physrevd.98.104030
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Super-Penrose process and rotating wormholes

Abstract: We consider collision of particles in a wormhole near its throat. Particles come from the opposite mouths. If the lapse function is small enough there, the energy E of debris at infinity grows unbounded, so we are faced with the so-called super-Penrose process. This requires the existence of the ergoregion, so a wormhole should be rotating. PACS numbers: 04.70.Bw, In recent years, essential interest revived to high energy collisions in a strong gravitation field. This concerns the behavior of two different cha… Show more

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Cited by 19 publications
(19 citation statements)
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“…For black holes, this coincides with the standard definition [1], [24]. But it includes also the case of naked singularities and wormholes if collision occurs in the point with small but nonzero N c > (N c ) min when (N c ) min → 0 and N c → 0 [22].…”
Section: Explicit Solutions Of Equationssupporting
confidence: 69%
See 3 more Smart Citations
“…For black holes, this coincides with the standard definition [1], [24]. But it includes also the case of naked singularities and wormholes if collision occurs in the point with small but nonzero N c > (N c ) min when (N c ) min → 0 and N c → 0 [22].…”
Section: Explicit Solutions Of Equationssupporting
confidence: 69%
“…3.5 of [21]. In another version, particles 1 and 2 can come from the opposite mouths of a wormhole [26], [22]. Now, we are in position to show that the dependence (31) itself leads to the SPP, independently of the details of the scenario.…”
Section: Energy In CM Frame Is Finitementioning
confidence: 84%
See 2 more Smart Citations
“…Zaslavskii's method. See Zaslavskii [47,53] for the details of the head-on collision in the near-extremal case.…”
Section: )mentioning
confidence: 99%