Click to copy, then share by pasting into your messages, comments, social media posts and websites.
Click to copy, then add into your webpages so users can view and engage with this video from your site.
Report Content
We also accept reports via email. Please see the Guidelines Enforcement Process for instructions on how to make a request via email.
Thank you for submitting your report
We will investigate and take the appropriate action.
Did YOU Know That Directed Photons of Light Excite the Graphene Oxide Inside YOUR Body?
Did YOU Know That Directed Photons of Light Excite the Graphene Oxide Inside YOUR Body?
“Photons Excite Graphene,” LIDAR, "light detection and ranging" uses photons of light published in a scientific paper in December 2020:
Photon-generated carrier transfer process from graphene oxide platforms to graphene quantum dots: optical evidences and ultrafast photonics applications [Wang et al, Dec 2020]
[The] lack of a bandgap in graphene oxide severely restricts the controllability of carrier properties and therefore impedes its applications.
Here, we demonstrate the engineering of the graphene oxide bandgap in the graphene/GaAs heterostructure via C and Ga exchange induced by the method of femtosecond laser irradiation (FLI).
The coupling of the bandgap-opened graphene oxide with GaAs significantly enhances both the harvest of photons and the transfer of photon-generated carriers across the interface of vdW heterostructures.
Thus, as a demonstration example, it allows us to develop a saturable absorber combining a delicately engineered graphene/GaAs vdW heterostructure with InAs quantum dots capped with short-period superlattices.
This video presentation is a yard light on laser rods updated to street guard (2) [Oct 24, 2023]
The light (photons) excites the material [graphene oxide]. We can use people for logic gate scenarios. In brain neural electronics, it’s neural stimulation, neural modulation and neural monitoring, and the graphene oxide platform introduces instructions at the synaptic molecular level.
We now have Brain Imaging Libraries we can access wirelessly to commit a Crispr cas9 change. If your DNA is “nekkid” we can wrap it in a protein or methylate it and take a transcription of what we did with a transcriptome. Proteonomics is another college tech-laden career path.
[8:46] Our big “arrays” [antennas] are watching your biofield photons with something called “biophotonics” in what they call “neutrino arrays.”
Let’s hope this kind of human observatory is NOT planned for you and where you live:
See The Giant Radio Array for Neutrino Detection, Martineau 2020, DOI: 10.22323/1.358.0958
The Giant Radio Array for Neutrino Detection (GRAND) is a proposal for a giant observatory of ultra-high energy cosmic particles (neutrinos, cosmic rays and gamma rays). It will be composed of twenty subarrays of 10,000 antennas each, to be deployed after 2030 at various locations around the world, totaling a detection area of 200,000 km². According to simulations, GRAND will reach unprecedented sensitivity to neutrinos of astrophysical origin with energies above 10^17 eV, sufficient to guarantee their detection. GRAND sub-degree angular resolution will also make it possible to hunt for point sources and possibly start neutrino astronomy.
[9:05] Whether you have had the “
Category | None |
Sensitivity | Normal - Content that is suitable for ages 16 and over |
Warning - This video exceeds your sensitivity preference!
To dismiss this warning and continue to watch the video please click on the button below.
Note - Autoplay has been disabled for this video.