The crease flow on null hypersurfaces

AbstractThe crease flow, replacing the Hamiltonian system used for the evolution of crease sets on black hole horizons, is introduced and its bifurcation properties for null hypersurfaces are discussed. We state the conditions of nondegeneracy and typicality for the crease submanifolds, and find their normal forms and versal unfoldings (codimension 3). The allowed boundary singularities are thus prescribed by the Arnold–Kazaryan–Shcherbak theorem for 3-parameter versal families, and hence identified as swallowtails and Whitney umbrellas of particular kinds. We further present the bifurcation diagrams describing crease evolution at the crossings of the bifurcation sets and elsewhere, and a typical example is studied. Some remarks on the connection of these results to the crease evolution on black hole horizons are also given.

Authors
Cotsakis Spiros 1, 2
Journal
European Physical Journal C
Publisher
Springer New York LLC
Number of issue
4
Language
English
Pages
391
Status
Published
Volume
84
Year
2024
Organizations
  • 1 University of Cambridge
  • 2 RUDN University
Keywords
elementary particles; quantum field theory; Nuclear Physics; heavy ions; hadrons; quantum field theories; string theory; Measurement Science and Instrumentation; astronomy; Astrophysics and cosmology; nuclear energy
Date of creation
01.07.2024
Date of change
01.07.2024
Short link
https://repository.rudn.ru/en/records/article/record/111788/
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