The study of cancer with the Femtoscope shows us that the information of the cell nucleus is correlated with the atomic nucleus. Femtoscope and entropy algorithms monitor the time and energy of x-rays that transform c...The study of cancer with the Femtoscope shows us that the information of the cell nucleus is correlated with the atomic nucleus. Femtoscope and entropy algorithms monitor the time and energy of x-rays that transform cancer cells into healthy cells and vice versa. Curing cancer means recovering the information lost from a cancer cell, leading to a minimum entropy. The efficient treatment of cancer presents resonance frequencies in the production and elimination of cancerous cells, asymmetrically. The cure asymmetry of cancer is due to the support of DNA repair genes, allowing the stability of a race or species, and prioritizing life to death. Using the Femtoscope and Spectroscopy, we experimentally validate the resonance frequencies, which effectively cure the cancer and find the optimal times and doses of treatment. In this way, we minimize collateral effects and unnecessary economic costs. In addition, the phosphorus resonance demonstrates why the low energies of x-rays cure cancer and high x-ray energies only burn cancer cells.展开更多
There have been extended and heated discussions on the nature of the two exotic states,Z_(c)(3900)and Z_(sc)(3985),particularly whether they are near-threshold resonances,virtual states,or bound states.In this work,we...There have been extended and heated discussions on the nature of the two exotic states,Z_(c)(3900)and Z_(sc)(3985),particularly whether they are near-threshold resonances,virtual states,or bound states.In this work,we demonstrate for the first time that the femtoscopic technique can be employed to distinguish between these three scenarios.More concretely,based on the Koonin-Pratt formula with a Gaussian source,we show that the low-momentum D^(0)D^(*-)/D^(0)D_(s)^(*-)correlation functions significantly differ in the three scenarios.The high-momentum results exhibit distinct characteristics in the resonant and virtual state scenarios,especially in small collision systems of 1 fm,as produced in pp collisions at the LHC.We hope that these discoveries will stimulate further experimental studies and help clarify the nature of the many exotic states that have been discovered.展开更多
文摘The study of cancer with the Femtoscope shows us that the information of the cell nucleus is correlated with the atomic nucleus. Femtoscope and entropy algorithms monitor the time and energy of x-rays that transform cancer cells into healthy cells and vice versa. Curing cancer means recovering the information lost from a cancer cell, leading to a minimum entropy. The efficient treatment of cancer presents resonance frequencies in the production and elimination of cancerous cells, asymmetrically. The cure asymmetry of cancer is due to the support of DNA repair genes, allowing the stability of a race or species, and prioritizing life to death. Using the Femtoscope and Spectroscopy, we experimentally validate the resonance frequencies, which effectively cure the cancer and find the optimal times and doses of treatment. In this way, we minimize collateral effects and unnecessary economic costs. In addition, the phosphorus resonance demonstrates why the low energies of x-rays cure cancer and high x-ray energies only burn cancer cells.
基金supported by the National Key R&D Program of China(2023YFA1606703)the National Natural Science Foundation of China(12435007)+2 种基金support from the National Natural Science Foundation of China(12405133,12347180)China Postdoctoral Science Foundation(2023M740189)the Postdoctoral Fellowship Program of CPSF(GZC20233381).
文摘There have been extended and heated discussions on the nature of the two exotic states,Z_(c)(3900)and Z_(sc)(3985),particularly whether they are near-threshold resonances,virtual states,or bound states.In this work,we demonstrate for the first time that the femtoscopic technique can be employed to distinguish between these three scenarios.More concretely,based on the Koonin-Pratt formula with a Gaussian source,we show that the low-momentum D^(0)D^(*-)/D^(0)D_(s)^(*-)correlation functions significantly differ in the three scenarios.The high-momentum results exhibit distinct characteristics in the resonant and virtual state scenarios,especially in small collision systems of 1 fm,as produced in pp collisions at the LHC.We hope that these discoveries will stimulate further experimental studies and help clarify the nature of the many exotic states that have been discovered.
