The Mac @TheMac
25 April, 08:20
The presented results show that quantum coherence of individual subsystems cannot be used for cognitive binding because it is a physical mechanism that leads to separability and non-interaction. In contrast, quantum interactions with their associated decoherence of individual subsystems are instrumental for dynamical changes in the quantum entanglement of the composite quantum state vector and manifested correlations of different observable outcomes. Thus, fast decoherence timescales could assist cognitive binding through quantum entanglement across extensive neural networks in the brain cortex.

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Sunny Star @Sunny2021
25 April, 08:33
In response The Mac to his Publication
That reminds me of thisπŸ˜–

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Ask Yourself @AskYourself_45
26 April, 03:14
In response Sunny Star to her Publication
Dear God... πŸ™πŸ»πŸ™πŸ»πŸ™πŸ»

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The Mac @TheMac
https://www.pnas.org/doi/1...

Graphene is an ideal thin membrane substrate for creating molecule-scale devices. Here we demonstrate a scalable method for creating extremely small structures in graphene with atomic precision. It consists of inducing defect nucleation centers with energetic ions, followed by edge-selective electron recoil sputtering. As a first application, we create graphene nanopores with radii as small as 3 Γ…, which corresponds to 10 atoms removed. We observe carbon atom removal from the nanopore edge in situ using an aberration-corrected electron microscope, measure the cross-section for the process, and obtain a mean edge atom displacement energy of 14.1 Β± 0.1 eV. This approach does not require focused beams and allows scalable production of single nanopores and arrays of monodisperse nanopores for atomic-scale selectively permeable membranes.
03:16 AM - Apr 26, 2022
In response Ask Yourself to her Publication
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The Mac @TheMac
26 April, 03:17
In response The Mac to his Publication
Polymerase chain reaction (PCR) is a technique used to "amplify" small segments of DNA.

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The Mac @TheMac
26 April, 03:18
In response The Mac to his Publication
by S Li Β· 2020 Β· Cited by 2 β€” Graphene oxide (GO) has been suggested as an efficient assistant additive to eliminate non-specific amplification of the polymerase chain

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