Search for possible signals of space-time non-commutativity from ACT DR6
Abstract
The non-commutative geometry offers an effective framework for describing physics at the Planck scale, incorporating generic quantum-gravitational effects through an intrinsic minimal length and the -deformed space-time stands out as a particularly well-developed model based on a Lie-algebraic type non-commutative space-time structure. We investigate the inflationary paradigm and the associated primordial perturbations within the framework of -deformed non-commutative space-time. By constructing a scalar field theory invariant under the -Poincar\'e algebra, we derive the deformed oscillator algebra for the field modes of the primordial perturbations resulting in the non-trivial scale dependent modification of both the scalar and tensor power spectra. Further, we compute the corresponding -deformed corrections to the scalar spectral index and its running, finding that the -deformation naturally provides a higher value for spectral index which offers a potential resolution to the discrepancy between the values reported by PLANCK and ACT. Finally we perform a comprehensive Bayesian analysis using the latest ACT DR6 data, constraining the -deformed non-commutative length scale to λ=2.17+2.33-1.53× 10-30m at the 1σ confidence level, suggesting the precision cosmology as a powerful probe of quantum gravity phenomenology.
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