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Full-Text Articles in Medicine and Health Sciences
A Quantum Logic Gate In The Dna Deoxyribose Moiety, F. Matthew Mihelic
A Quantum Logic Gate In The Dna Deoxyribose Moiety, F. Matthew Mihelic
Faculty Publications
The deoxyribose moiety of a nucleotide in the DNA molecule can act as a quantumlogic gate, in which the enantiomeric shift between the C2-endo and C3-endo conformations of each nucleotide, occurs within a logically and thermodynamically reversible situation of electron spin qubits, that are coherently held within the topologically insulating DNA crystalline nanostructure, and that are coherently conducted along the delocalized electrons of the pi-stacked nucleotide base pairs. The enantiomeric symmetry between the C2-endo and C3-endo conformations is logically and thermodynamically reversible because it functions as a symmetry-breaking Szilard engine that is effectively built out of the physicality of the …
Implications Of The Quantum Dna Model For Information Sciences, F. Matthew Mihelic
Implications Of The Quantum Dna Model For Information Sciences, F. Matthew Mihelic
Faculty Publications
The DNA molecule can be modeled as a quantum logic processor, and this model has been supported by pilot research that experimentally demonstrated non-local communication between cells in separated cell cultures. This modeling and pilot research have important implications for information sciences, providing a potential architecture for quantum computing that operates at room temperature and is scalable to millions of qubits, and including the potential for an entanglement communication system based upon the quantum DNA architecture. Such a system could be used to provide non-local quantum key distribution that could not be blocked by any shielding or water depth, would …
Magnetic Vector Potential Manipulation Of Majorana Fermions In Dna Quantum Logic, F. Matthew Mihelic
Magnetic Vector Potential Manipulation Of Majorana Fermions In Dna Quantum Logic, F. Matthew Mihelic
Faculty Publications
In the quantum logic of the DNA molecule, electrons are held and conducted coherently as spinless Cooper pairs and are shielded from electromagnetic energy by a Faraday cage effect of the double lipid bilayer of the nuclear membrane. The magnetic vector potential generated by cellular depolarization can synchronize logical activity in portions of the DNA molecule by affecting spin directions of appropriately oriented spinless electrons via the Aharonov-Bohm effect, but is not blocked by that Faraday cage effect. Within the logically and thermodynamically reversible chiral enantiomeric symmetry of the deoxyribose moieties the decoherent transition of Cooper pair to Dirac pair …
Back Of The Envelope Calculations Regarding Alexandrov, Et Al. 2009, F. Matthew Mihelic
Back Of The Envelope Calculations Regarding Alexandrov, Et Al. 2009, F. Matthew Mihelic
Faculty Publications
The paper entitled “DNA Breathing Dynamics in the Presence of a Terahertz Field” written by Alexandrov, Gelev, Bishop, Usheva, and Rasmussen that was posted on the Physics ArXiv on October 28, 2009, dealt with the effects of terahertz electromagnetic radiation on the DNA molecule. Figure 4 of the paper indicates that a segment of DNA that is between 60 and 70 base pairs in length will develop a “bubble” (i.e. separation of the hydrogen bonds between base pairs) at a location of about 45 base pairs, when exposed to 2 THz electromagnetic radiation for a time period of at least …
Information Fusion And Quantum Logic In Family Medicine, F. Matthew Mihelic
Information Fusion And Quantum Logic In Family Medicine, F. Matthew Mihelic
Faculty Publications
A time-tested model for information fusion and analysis is provided by Family Medicine. Family Medicine is a discipline that operates in the realms of botJ1 technical and social sciences to analyze massive amounts of information from mulriple sources in order to make decisions that bring about tJie integration and coordination of interdisciplinary interventions involving scientific, psychological, and social aspects of medical care. This generalist function serves to lower the organizational entropy of complex systems and thereby improve efficiency while reducing ilie risk of catastrophic failure. Simply bringing a group of specialists together in one place does not bring about the …