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Teoreticheskaya i Matematicheskaya Fizika, 2016, Volume 189, Number 3, Pages 389–404
DOI: https://doi.org/10.4213/tmf9086 (Mi tmf9086) 		 
This article is cited in 13 scientific papers (total in 13 papers)

Holographic instant conformal symmetry breaking by colliding conical defects

D. S. Ageev, I. Ya. Aref'eva

Steklov Mathematical Institute of Russian Academy of Sciences, Moscow, Russia
Full-text PDF (1884 kB) Citations (13)
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DOI: https://doi.org/10.4213/tmf9086
Abstract: We study instant conformal symmetry breaking as a holographic effect of ultrarelativistic particles moving in the AdS3 space–time. We give a qualitative picture of this effect based on calculating the two-point correlation functions and the entanglement entropy of the corresponding boundary theory. We show that in the geodesic approximation, because of gravitational lensing of the geodesics, the ultrarelativistic massless defect produces a zone structure for correlators with broken conformal invariance. At the same time, the holographic entanglement entropy also exhibits a transition to nonconformal behavior. Two colliding massless defects produce a more diverse zone structure for correlators and the entanglement entropy.
Keywords: AdS/CFT correspondence, holography, conical defect, thermalization, holographic entanglement entropy.
Funding agency Grant number
Russian Science Foundation 14-11-00687
This research was performed at the Steklov Mathematical Institute of Russian Academy of Science and supported by a grant from the Russian Science Foundation (Project No. 14-11-00687).
Received: 27.10.2015
English version:
Theoretical and Mathematical Physics, 2016, Volume 189, Issue 3, Pages 1742–1754
DOI: https://doi.org/10.1134/S0040577916120072
Bibliographic databases:
Document Type: Article
Language: Russian
Citation: D. S. Ageev, I. Ya. Aref'eva, “Holographic instant conformal symmetry breaking by colliding conical defects”, TMF, 189:3 (2016), 389–404; Theoret. and Math. Phys., 189:3 (2016), 1742–1754
Citation in format AMSBIB
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    • This publication is cited in the following 13 articles:
    1. Dmitry S. Ageev, Andrey A. Bagrov, Aleksandr I. Belokon, Askar Iliasov, Vasilii V. Pushkarev, Femke Verheijen, “Local quenches in fracton field theory: Lieb-Robinson bound, noncausal dynamics and fractal excitation patterns”, Phys. Rev. D, 110:6 (2024)  crossref
    2. Dmitry S. Ageev, Aleksandr I. Belokon, Vasilii V. Pushkarev, “From locality to irregularity: introducing local quenches in massive scalar field theory”, JHEP, 2023, no. 5, 188–44  mathnet  crossref  isi
    3. Kastikainen J., Shashi S., “Structure of Holographic Bcft Correlators From Geodesics”, Phys. Rev. D, 105:4 (2022), 046007  crossref  mathscinet  isi
    4. Yu. Kusuki, M. Miyaji, “Entanglement entropy after double excitation as an interaction measure”, Phys. Rev. Lett., 124:6 (2020), 061601  crossref  mathscinet  isi  scopus
    5. D. S. Ageev, “Holographic complexity of local quench at finite temperature”, Phys. Rev. D, 100:12 (2019)  crossref  mathscinet  isi
    6. Yu. Kusuki, M. Miyaji, “Entanglement entropy, otoc and bootstrap in 2D cfts from regge and light cone limits of multi-point conformal block”, J. High Energy Phys., 2019, no. 8, 063  crossref  mathscinet  isi
    7. D. Ageev, I. Aref'eva, A. Bagrov, M. I. Katsnelson, “Holographic local quench and effective complexity”, J. High Energy Phys., 2018, no. 8, 071  crossref  mathscinet  isi  scopus
    8. Ageev D., Xxth International Seminar on High Energy Physics (Quarks-2018), Epj Web of Conferences, 191, eds. Volkova V., Zhezher Y., Levkov D., Rubakov V., Matveev V., E D P Sciences, 2018  crossref  isi
    9. I. Ya. Aref'eva, M. A. Khramtsov, M. D. Tikhanovskaya, “Thermalization after holographic bilocal quench”, J. High Energy Phys., 2017, no. 9, 115  crossref  mathscinet  zmath  isi  scopus
    10. J. Lindgren, “Collisions of massive particles, timelike thin shells and formation of black holes in three dimensions”, J. High Energy Phys., 2016, no. 12, 048  crossref  mathscinet  isi  scopus
    11. E. J. Lindgren, “Black hole formation from pointlike particles in three-dimensional anti-de Sitter space”, Class. Quantum Gravity, 33:14 (2016), 145009, 35 pp.  crossref  mathscinet  zmath  isi  scopus
    12. I. Ya. Aref'eva, M. A. Khramtsov, “AdS/CFT prescription for angle-deficit space and winding geodesics”, J. High Energy Phys., 2016, no. 4, 121  crossref  mathscinet  isi  scopus
    13. M. Khramtsov, “Holographic dictionary and defects in the bulk”, 19th International Seminar on High Energy Physics (QUARKS-2016), EPJ Web Conf., 125, eds. V. Andrianov, V. Matveev, V. Rubakov, V. Kim, A. Andrianov M. Fitkevich, EDP Sciences, 2016, UNSP 05010  crossref  isi  scopus
    Citing articles in Google Scholar: Russian citations, English citations
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    		Теоретическая и математическая физика Theoretical and Mathematical Physics
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