RADQC Builds a Bridge Between Quantum Technology Dynamics & Nano-Cyborg Applications
My most recent paper based on a Cosmology of Light, ‘Envisioning a Light-Based Quantum-Computational Nano-Cyborg’, was accepted at the IEEE IEMTRONICS 2022 conference held June 1–4, 2022. Here are some interesting facts about the conference:
- Papers were submitted from 42 countries, and the acceptance rate was 38%
- Two Nobel Laureates opened the days with keynotes. 1) Prof. Takaaki Kajita. Institute for Cosmic Ray Research, The University of Tokyo, who was awarded the 2015 Nobel Prize in Physics for discovering the oscillations of neutrinos from one flavor to another, which proved that those subatomic particles have mass; 2) Prof. Konstantin Novoselov, Centre for Advanced 2D Materials, National University of Singapore and Langworthy Professor in the School of Physics and Astronomy, University of Manchester, who was awarded the 2010 Nobel Prize for Physics for groundbreaking experiments regarding the two-dimensional material graphene.
This paper was significant for me from two perspectives.
- First, it presents an important piece in the puzzle I have projected publicly about the invention I filed a patent for — Radical Atom-Denominated Quantum Computer (RADQC). From a mechatronics perspective, without disclosing the secret gate architecture, it suggests how the RADQC (aka nano-cyborg) would “see” quantum dynamics differently, and how such sight might be applied to the fields of medical technology, material sciences, and genetics. Further, RADQC is envisioned to be a far more cost-effective approach to building a quantum computer because it leverages proven quantum dynamics already exhibited in common quantum-based applications such as MRI, LED, GPS, and Laser.
- Secondly, over the last few years, I have systematically attempted to publish technical papers based on each of the ten Cosmology of Light books. This paper was the first from the final book in the Applications in Cosmology of Light four-book series that touches on transhumanism, Triumph of Love. The interested reader can view a more detailed chronology of publications here.
I am also glad to note that I did receive a Best Presenter award for this paper:
Abstract — “By viewing light as a symmetrical, multi-layered construct, it is possible to envision a new genre of nano-cyborgs. In general, cyborgs can be considered as a portmanteau of cybernetic and organic, and therefore as an entity consisting of both organic and mechatronic parts. However, in the multi-layered model of light subtle information existing in antecedent layers of light can be thought of as materializing through a process of quantization, that subsequently would require a nano-cyborg to interface with it, make sense of it, and act on it. Further quantum-level dynamics would necessitate nano-cyborgs of a tunneling type, annealing type, superposition type, and entanglement type, amongst others, that would have practical applications at nano-levels of different granularity. Such nano-cyborgs are envisioned to be built leveraging computational stratum at different levels of granularity ranging from the electromagnetic level, to the quantum particle level, to the level of atoms, to the level of molecular plans in cells. Immediate application areas of such light-based quantum-computational nano-cyborgs are envisioned to be in medical technology, material sciences, and alteration of genetic-type information, amongst others.”
A 20-minute backup of the live IEMTRONICS presentation can be viewed here: