We propose Temporal Load Theory (TLT), a conceptual reinterpretation of established physics in which all forms of energy storage are understood as loading the temporal dimension of spacetime. The paper introduces a three-level architecture (capture mechanisms, mass-generation condensates, and the metric tensor as universal temporal substrate) demonstrated through case studies of the proton, photon, and gravitational wave. Speculative extensions propose that vacuum energy is the ground-state tension of the temporal substrate fed by the second law of thermodynamics, and that dark matter effects arise from the substrate's elastic response to matter displacement — unifying Verlinde's emergent gravity and Wiltshire's timescape cosmology. This paper emerged from an extended human–AI collaboration. The human author originated all core hypotheses and directed the research agenda. Claude AI (Opus 4.6, Anthropic) contributed technical elaboration, data retrieval, and framework articulation. Full attribution details are provided in Section 15. Version 3.0. Not peer-reviewed. Presented as an invitation to formalize.
Stickley et al. (Sun,) studied this question.