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Enzymatic Catalysis
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$$\text{CRI} = \frac{\text{Amplitude}(\text{ES}^\ddagger) - \text{Amplitude}(\text{ES})}{\text{Amplitude}(\text{ES})}$$
Enzymes exhibiting high $\text{CRI}$ values ($>1.5$) are thought to rely more heavily on mechanical strain induction for catalysis than purely chemical interactions [7]. Computational Molecular Dynamics simulations consistently show that enzymes achieving maximal catalytic turnover frequently vibrate at frequencies in the low [Terahertz range](/entrie… -
Temporal Inversion
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Observation of TIs requires instruments capable of measuring the absolute rate of decay or molecular reorganization, rather than just the accumulated state. High-sensitivity Chronometers, such as those utilizing metastable muonic decay signatures, are the primary tools.
Mitigation strategies focus on stabilizing the local $\Phi_c$ environment. Current attempts involve generating counter-frequency harmonics in the [Terahertz rang…