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On temporal anomalies in ultraweak interactions and neurocognitive processes
- Author(s):
- Serge Kernbach (see profile) , Olga Kernbach
- Date:
- 2019
- Item Type:
- Article
- Tag(s):
- temporal anomalies, ultraweak interactions, neurocognitive processes, event time, multiprocessor architectures
- Permanent URL:
- https://doi.org/10.17613/pah4-gf97
- Abstract:
- The paper describes a thought experiment with nonlinear temporal dynamics of multi-thread computational processes. Its task is to provide a possible explanation of temporal anomalies described in literature, without violating the causality and orderliness of linear time. The main argument is based on the separation of energy and information in computational processes. The existence of such systems outside of multiprocessor architectures is hypothesized in the context of known experimental evidences in areas of ultraweak interactions and neurocognitive processes. A phenomenological model is considered to explain the effect of so-called 'event time'. Several experiments are demonstrated, such as Schmidt's experiments with pre-recorded targets, which, on the one hand, create an anomaly of linear time, on the other hand, are well described by the proposed model.
- Metadata:
- xml
- Published as:
- Journal article
- Status:
- Published
- Last Updated:
- 1 year ago
- License:
- Attribution-NonCommercial-ShareAlike
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time_revised.pdf