date: 2018-07-03T08:51:05Z pdf:PDFVersion: 1.5 pdf:docinfo:title: Higher Spin Extension of Fefferman-Graham Construction xmp:CreatorTool: LaTeX with hyperref package access_permission:can_print_degraded: true subject: Fefferman-Graham ambient construction can be formulated as sp(2)-algebra relations on three Hamiltonian constraint functions on ambient space. This formulation admits a simple extension that leads to higher-spin fields, both conformal gauge fields and usual massless fields on anti-de Sitter spacetime. For the bulk version of the system, we study its possible on-shell version which is formally consistent and reproduces conformal higher-spin fields on the boundary. Interpretation of the proposed on-shell version crucially depends on the choice of the functional class. Although the choice leading to fully interacting higher-spin theory in the bulk is not known, we demonstrate that the system has a vacuum solution describing general higher-spin flat backgrounds. Moreover, we propose a functional class such that the system describes propagation of higher-spin fields over any higher-spin flat background, reproducing all the structures that determine the known nonlinear higher-spin equations. dc:format: application/pdf; version=1.5 pdf:docinfo:creator_tool: LaTeX with hyperref package access_permission:fill_in_form: true pdf:encrypted: false dc:title: Higher Spin Extension of Fefferman-Graham Construction modified: 2018-07-03T08:51:05Z cp:subject: Fefferman-Graham ambient construction can be formulated as sp(2)-algebra relations on three Hamiltonian constraint functions on ambient space. This formulation admits a simple extension that leads to higher-spin fields, both conformal gauge fields and usual massless fields on anti-de Sitter spacetime. For the bulk version of the system, we study its possible on-shell version which is formally consistent and reproduces conformal higher-spin fields on the boundary. Interpretation of the proposed on-shell version crucially depends on the choice of the functional class. Although the choice leading to fully interacting higher-spin theory in the bulk is not known, we demonstrate that the system has a vacuum solution describing general higher-spin flat backgrounds. Moreover, we propose a functional class such that the system describes propagation of higher-spin fields over any higher-spin flat background, reproducing all the structures that determine the known nonlinear higher-spin equations. pdf:docinfo:subject: Fefferman-Graham ambient construction can be formulated as sp(2)-algebra relations on three Hamiltonian constraint functions on ambient space. This formulation admits a simple extension that leads to higher-spin fields, both conformal gauge fields and usual massless fields on anti-de Sitter spacetime. For the bulk version of the system, we study its possible on-shell version which is formally consistent and reproduces conformal higher-spin fields on the boundary. Interpretation of the proposed on-shell version crucially depends on the choice of the functional class. Although the choice leading to fully interacting higher-spin theory in the bulk is not known, we demonstrate that the system has a vacuum solution describing general higher-spin flat backgrounds. Moreover, we propose a functional class such that the system describes propagation of higher-spin fields over any higher-spin flat background, reproducing all the structures that determine the known nonlinear higher-spin equations. pdf:docinfo:creator: Xavier Bekaert, Maxim Grigoriev and Evgeny Skvortsov PTEX.Fullbanner: This is pdfTeX, Version 3.14159265-2.6-1.40.18 (TeX Live 2017/W32TeX) kpathsea version 6.2.3 meta:author: Xavier Bekaert, Maxim Grigoriev and Evgeny Skvortsov trapped: False meta:creation-date: 2018-01-29T07:52:50Z created: 2018-01-29T07:52:50Z access_permission:extract_for_accessibility: true Creation-Date: 2018-01-29T07:52:50Z Author: Xavier Bekaert, Maxim Grigoriev and Evgeny Skvortsov producer: pdfTeX-1.40.18 pdf:docinfo:producer: pdfTeX-1.40.18 pdf:unmappedUnicodeCharsPerPage: 0 dc:description: Fefferman-Graham ambient construction can be formulated as sp(2)-algebra relations on three Hamiltonian constraint functions on ambient space. This formulation admits a simple extension that leads to higher-spin fields, both conformal gauge fields and usual massless fields on anti-de Sitter spacetime. For the bulk version of the system, we study its possible on-shell version which is formally consistent and reproduces conformal higher-spin fields on the boundary. Interpretation of the proposed on-shell version crucially depends on the choice of the functional class. Although the choice leading to fully interacting higher-spin theory in the bulk is not known, we demonstrate that the system has a vacuum solution describing general higher-spin flat backgrounds. Moreover, we propose a functional class such that the system describes propagation of higher-spin fields over any higher-spin flat background, reproducing all the structures that determine the known nonlinear higher-spin equations. Keywords: higher-spin theory; AdS/CFT; Fefferman-Graham access_permission:modify_annotations: true dc:creator: Xavier Bekaert, Maxim Grigoriev and Evgeny Skvortsov description: Fefferman-Graham ambient construction can be formulated as sp(2)-algebra relations on three Hamiltonian constraint functions on ambient space. This formulation admits a simple extension that leads to higher-spin fields, both conformal gauge fields and usual massless fields on anti-de Sitter spacetime. For the bulk version of the system, we study its possible on-shell version which is formally consistent and reproduces conformal higher-spin fields on the boundary. Interpretation of the proposed on-shell version crucially depends on the choice of the functional class. Although the choice leading to fully interacting higher-spin theory in the bulk is not known, we demonstrate that the system has a vacuum solution describing general higher-spin flat backgrounds. Moreover, we propose a functional class such that the system describes propagation of higher-spin fields over any higher-spin flat background, reproducing all the structures that determine the known nonlinear higher-spin equations. dcterms:created: 2018-01-29T07:52:50Z Last-Modified: 2018-07-03T08:51:05Z dcterms:modified: 2018-07-03T08:51:05Z title: Higher Spin Extension of Fefferman-Graham Construction xmpMM:DocumentID: uuid:faaa9ff8-3cc0-40c9-8411-976206b95350 Last-Save-Date: 2018-07-03T08:51:05Z pdf:docinfo:keywords: higher-spin theory; AdS/CFT; Fefferman-Graham pdf:docinfo:modified: 2018-07-03T08:51:05Z meta:save-date: 2018-07-03T08:51:05Z pdf:docinfo:custom:PTEX.Fullbanner: This is pdfTeX, Version 3.14159265-2.6-1.40.18 (TeX Live 2017/W32TeX) kpathsea version 6.2.3 Content-Type: application/pdf X-Parsed-By: org.apache.tika.parser.DefaultParser creator: Xavier Bekaert, Maxim Grigoriev and Evgeny Skvortsov dc:subject: higher-spin theory; AdS/CFT; Fefferman-Graham access_permission:assemble_document: true xmpTPg:NPages: 26 pdf:charsPerPage: 3035 access_permission:extract_content: true access_permission:can_print: true pdf:docinfo:trapped: False meta:keyword: higher-spin theory; AdS/CFT; Fefferman-Graham access_permission:can_modify: true pdf:docinfo:created: 2018-01-29T07:52:50Z