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Quantization of a Scalar Field in Two Poincaré Patches of Anti-de
Sitter Space and AdS/CFT
release_x4ycg2legrc4zhlt6elqyihnrq
by
Ippei Fujisawa,
Ryuichi Nakayama
Released
as a report
.
2014
Abstract
Two sets of modes of a massive free scalar field are quantized in a pair of
Poincaré patches of Lorentzian anti-de Sitter (AdS) space, AdS_d+1 (d
≥ 2). It is shown that in Poincaré coordinates (r,t,x⃗), the two
boundaries at r=±∞ are connected. When the scalar mass m satisfies
a condition 0 < ν=√((d^2/4)+(mℓ)^2) <1, there exist two sets of mode
solutions to Klein-Gordon equation, with distinct fall-off behaviors at the
boundary. By using the fact that the boundaries at r=±∞ are
connected, a conserved Klein-Gordon norm can be defined for these two sets of
scalar modes, and these modes are canonically quantized. Energy is also
conserved. A prescription within the approximation of semi-classical gravity is
presented for computing two- and three-point functions of the operators in the
boundary CFT, which correspond to the two fall-off behaviours of scalar field
solutions.
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