Speaker
Description
The authors present a paradigm related to the measurement of biological objects, addressing the incoherence between the accuracy of structural analysis and that of function (motion-related events).
Biology, including medicine, studies objects—for example, the human body—on scales ranging from 1;1 (basic medical examination) to 10 -10 m (e.g., microscopy and synchrotron spectroscopy; own results).
The escalation of magnification and resolution in these measurements results in a reduction of observable function, particularly at the molecular level.
A breakthrough discovery of spontaneous photon emission from DNA (own result) represents a deviation from the above-described mechanism, showing the coherence between function and structure at the quantum level.
