The Signature of Higgs Boson Near Surface Horizon of Oscillating Cylindrical Universe

Abstract: First, by using cylindrically symmetric model, the quantum state for cyclic Universe is studied. It is shown that the ground state for oscillating cylindrical Universe is a maximally entangled with two-mode squeezed states on expanding and contracting Hilbert spaces of Universe. Next, the production cross section for each Universe state is obtained. It is observed that the probability for producing each state in cyclic Universe depends on different oscillating frequencies of Universe in space-time directions.A… Show more

“…Also ,some authors attempt to treat the DNA-based biomolecular solution for the SAT problem from the quantum mechanical perspective with a purpose to explore the relationship between DNAC and quantum computation (QC) [6].Furthermore, by assuming that not only counterions but DNA molecules as well are thermally distributed according to a Boltzmann law, some researchers propose a modified Poisson-Boltzmann equation at the classical level as starting point to compute the effects of quantum fluctuations of the electric field on the interaction among DNAaction complexes [7].The main question is the probability of information loss in binding site of DNA due to entanglement between DNA bead charges? Using entanglement of Dirac fields in non non-inertial frames [8][9][10][11][12][13] we suggest a mechanism to calculate the amount of information loss in transcribing genetic sequence from DNA to protein..In our proposal, there are three different Hilbert spaces that belong to degrees of freedom of DNA binding site, DNA unbinding site, and protein. We define annihilation and creation operators for information in each space and obtain the relation between these operators during transcribing genetic sequence of the DNA binding site into protein.…”

Information Loss in Transcribing Genetic Sequence from DNA into Protein

“…Also ,some authors attempt to treat the DNA-based biomolecular solution for the SAT problem from the quantum mechanical perspective with a purpose to explore the relationship between DNAC and quantum computation (QC) [6].Furthermore, by assuming that not only counterions but DNA molecules as well are thermally distributed according to a Boltzmann law, some researchers propose a modified Poisson-Boltzmann equation at the classical level as starting point to compute the effects of quantum fluctuations of the electric field on the interaction among DNAaction complexes [7].The main question is the probability of information loss in binding site of DNA due to entanglement between DNA bead charges? Using entanglement of Dirac fields in non non-inertial frames [8][9][10][11][12][13] we suggest a mechanism to calculate the amount of information loss in transcribing genetic sequence from DNA to protein..In our proposal, there are three different Hilbert spaces that belong to degrees of freedom of DNA binding site, DNA unbinding site, and protein. We define annihilation and creation operators for information in each space and obtain the relation between these operators during transcribing genetic sequence of the DNA binding site into protein.…”

Information Loss in Transcribing Genetic Sequence from DNA into Protein