Gauge-Gravity Duality and Mass-Gravity Mechanism: QCD SU(3) symmetry Compression and Higgs Chiral Locking

This work proposes a quantum spacetime model where gravity emerges from deformations of a discrete network (Space Elementary Quanta, SEQ). We show that mass arises from SU(3)-mediated spatial compression, while gravity results from the induced stretching of the SEQ structure—unifying inertial and gravitational mass. The Higgs field stabilizes this compression as a "quantum chiral lock," linking QCD's color interactions with spacetime geometry. This framework explains general relativity's curvature and gauge theory as dual manifestations of quantized space dynamics, remaining consistent with asymptotic freedom, gravitational lensing, and the equivalence principle. Our previous work: “The Arrow of Time under The Mapping model between time set and entropy set”