RU2005111790A - METHOD FOR REGISTRATION OF LOCAL SPATIAL AND TEMPORAL UNIFORMITY OF THE PHYSICAL CHARACTERISTICS OF THE UNIVERSE AND A SYSTEM FOR ITS IMPLEMENTATION - Google Patents

Claims (21)

1. A method for recording the local spatial and temporal unevenness of the physical characteristics of the Universe, which consists in simultaneously measuring the control parameters generated by at least two sources of the control signal, measuring the current difference in the control parameters of these sources of the control signal, and determining the fluctuation of the difference in the control parameters of these sources, record time points and current coordinates of at least one control signal source in the sample coordinate system with increased fluctuation of the control parameter difference, when the fluctuation of the control parameter difference exceeds the statistical error associated with the measurement error, while the indicated current coordinates determine the zone of spatial non-uniformity of the physical space, and the time interval from the beginning to the end of the increased fluctuation of the control parameter difference determines the period temporary unevenness of physical space. 2. The registration method according to claim 1, characterized in that at least two identical sensors of the control signal are used as sources of the control signal. 3. The registration method according to claim 2, characterized in that the identical control signal sensors are placed in at least two spatially separated local measurement zones. 4. The registration method according to claim 3, characterized in that the zone of local unevenness is determined by the location of the sensor, which record the greatest fluctuation of the difference in the control parameters. 5. The registration method according to claim 3, characterized in that when measuring increased fluctuations of the difference in the control parameters, the angular orientation of at least one of the sensors in the selected coordinate system is changed. 6. The registration method according to claim 5, characterized in that the angular orientation of the sensor is additionally recorded at which the fluctuation of the difference in the control parameters is maximum. 7. The registration method according to claim 2, characterized in that, at least in the area where one of the sensors is located, an inhomogeneous vector potential field is additionally formed. 8. The registration method according to claim 7, characterized in that in the area of the additional inhomogeneous field of the vector potential, the sensor is placed in an area with a minimum value of magnetic field strength. 9. The registration method according to any one of claims 2 to 8, characterized in that stabilized high-frequency electric pulse generators are used as sensors. 10. The registration method according to any one of claims 2 to 8, characterized in that gravity field sensors are used as sensors. 11. The registration method according to claim 1, characterized in that at least one control signal sensor and at least one mathematical model of the control signal sensor are used as sources of the control signal, in order to determine an increased fluctuation of the difference in the control parameters measure the current difference of the control parameter of the specified sensor control signal and the control parameter generated by the mathematical model of the sensor. 12. The registration method according to claim 11, characterized in that at least one source of radioactive radiation and at least one mathematical model of the source of radioactive radiation are used as a sensor. 13. A system for recording the local spatial and temporal unevenness of the physical characteristics of the Universe, containing at least two sources of the control signal, each of which produces its own value of the control parameter, a unit for comparing the current values of the control parameters of at least two sources of the control signal, which provides determination of the current difference in the values of the control parameters, a computing unit for determining and analyzing fluctuations of the current difference in the control parameters, printing selection of fluctuations of the current difference in control parameters that exceeds the statistical error associated with the measurement error, a unit for tracking the current temporal and spatial coordinates of the sources of the control signal and a unit for recording measurement results, which stores at least all measurement results with an increased fluctuation in the current difference of the control parameters, while the sources of the control signal are connected to the input of the unit for comparing the current values of the control parameters, the output a unit for comparing the current values of the control parameters and an output unit for tracking the current temporal and spatial coordinates of the sources of the control signal are connected to the input of the computing unit, the output of which, in turn, is connected to the unit for recording measurement results. 14. The system according to item 13, wherein at least two identical sensors of the control signal are used as sources of the control signal. 15. The system according to 14, characterized in that the identical control signal sensors are located in at least two spaced-apart local measurement zones. 16. The system of clause 15, wherein stabilized generators of high-frequency electrical pulses are used as said sensors. 17. The system according to clause 16, characterized in that it is additionally equipped with at least one device for generating an inhomogeneous field of vector potential, while at least one of the sensors is placed in the specified device in the region with a minimum value of magnetic fields. 18. The system according to 17, characterized in that it is additionally equipped with a closed metal chamber, while inside the chamber there is a device for forming an inhomogeneous field of vector potential and at least two identical sensors, one of which is placed inside the device for forming an inhomogeneous fields of vector potential. 19. The system of clause 15, wherein the sensors used are gravity field sensors. 20. The system according to p. 13, characterized in that at least one control signal sensor and at least one mathematical model of the control signal sensor are used as control signal sources. 21. The system according to claim 20, characterized in that at least one source of radioactive radiation and at least one mathematical model of the source of radioactive radiation are used as a sensor.