Relational de Sitter State Counting with an SU(3) Clock

Abstract

Motivated by Maldacena's observer-centric formulation of de~Sitter physics Maldacena:2024spf, we develop an observer-dependent state-counting framework in Euclidean de~Sitter space by modeling the observer as a massive equatorial worldline carrying an SU(3) clock. Starting from the gauge-fixed graviton path integral on SD, we trace the one-loop phase D+2 to a finite set of scalar and conformal Killing modes and show that, once the worldline is included, the (D-1) transverse negative modes cancel the corresponding (D-1) conformal Killing directions mode by mode. The residual fixed-β phase from the global conformal factor and reparametrizations is removed by imposing the Hamiltonian constraint Hpatch - Hclock - = 0 via a Bromwich inverse Laplace transform, which under explicit complete-monotonicity assumptions yields a real and positive microcanonical density. We stress that this positivity statement is conditional on Assumptions (A1)--(A3) and is established at one loop about the round SD saddle in the probe regime G E clock/R 1; a self-consistent backreacting or higher-loop extension is a natural next step. In earlier work Ali:2025wld,Ali:2024rnw we argued that unbroken SU(3) confinement at T 0 can account for the observed value of the cosmological constant and for the origin of the fundamental constants (,G,c) as effective couplings fixed by the SU(3) vacuum structure; this makes SU(3) the natural candidate for the internal clock of de~Sitter, whose radius and temperature are themselves set by the same cosmological constant. This idea is implemented with three explicit SU(3) realizations (qutrit, Cartan weight-lattice, and U(1)2 rotor), for which the observer-inclusive density of states factorizes into a universal gravity factor, a universal worldline residue, and a clock-dependent SU(3) weight.