The TDT-SDS framework emphasizes a three-dimensional time (TDT) alongside three-dimensional space (SDS), came out of a thought experiment. It does not represent the current knowledge of physics. The thought experiment was conducted to open up fascinating speculative avenues for understanding consciousness, the soul, and their interactions with time and space, such as spacetime travel. Integrating the concept of consciousness traversing through transient time dimensions, particularly focusing on the past and future rather than the present, brings a rich integration of metaphysical and scientific speculation into the realm of theoretical frameworks.

Hypothesis Statement:

In the TDT-SDS (Three-Dimensional Time - Six-Dimensional Space-Time) framework, dark matter is hypothesized to be a manifestation of mass-energy transitions within unseen time dimensions that interact with our observable three-dimensional space.

These transitions suggest that dark matter comprises entities or phenomena existing primarily in additional temporal dimensions beyond our conventional perception. This interaction is primarily gravitational, as these temporal dimensions influence our spatial realm without being directly observable through electromagnetic radiation. The existence of dark matter, detectable only through its gravitational effects on visible matter and the cosmic microwave background radiation, could be explained by its residency in these additional dimensions of time, thereby influencing the observable universe in a manner consistent with the effects attributed to dark matter in current cosmological models.

Supporting Concepts:

1. Dimensional Interactions: The hypothesis posits that the gravitational effects we attribute to dark matter are due to its presence in higher temporal dimensions that do not align with the traditional four-dimensional spacetime framework.

2. Detection and Measurement: The gravitational effects of these time-dimensional entities on visible matter (such as galaxy rotation curves and gravitational lensing) serve as indirect evidence for the existence of dark matter, underpinning the hypothesis that these effects are due to interactions crossing dimensional boundaries.

3. Cosmological Implications: This hypothesis could explain why dark matter does not interact with electromagnetic forces (i.e., it neither emits nor absorbs light), as its primary mode of interaction with the observable universe is gravitational, a force that permeates all dimensions under current physical theories.

4. Predictive Testing: The hypothesis could be tested by examining the anomalies in gravitational effects that cannot be explained by visible matter alone, predicting specific signatures in the cosmic microwave background radiation, or through simulations that model the dynamics of galaxies under the influence of extra-temporal dimensions.

This hypothesis aims to provide a novel theoretical framework that integrates dark matter into a broader conceptualization of the universe's structure, potentially leading to new insights into both cosmology and the fundamental nature of time and space.