RU2016143023A - Method for measuring the superconductivity of materials using a Mossbauer sensor - Google Patents

Claims (10)

1. A method of measuring the superconductivity of materials using a Mössbauer sensor, comprising applying an external magnetic field to a sample of material located inside the working chamber of the test bench, characterized in that the following steps are carried out in succession: prepare the sample for examination in accordance with its phase state, prepare the sensor magnetic flux, which is used as a material containing the Mossbauer isotope, place a sample of material prepared for the study together with the Mössbauer sensor pre-installed inside it, in the working chamber of the test bench, conditions are created for the studied sample to transition to the superconducting state, an external magnetic field is applied to the sample, and then a focused beam of Mössbauer gamma radiation is sent to the sample from the source and fixed nuclear gamma resonance signal, by the form of which the occurrence of the superconducting state of the test sample is determined by the screening effect whether displacement of the magnetic field from the test sample. 2. The method according to p. 1, characterized in that the preparation of a sample of the material in the gaseous phase state is carried out at a cryogenic temperature in order to condense the gas, fill the working volume of the high-pressure chamber with diamond anvils with a liquefied sample, into which the Mössbauer magnetic sensor is previously placed fields of micron sizes, create conditions for the occurrence of superconductivity of the sample by lowering the temperature, apply an external magnetic field, measure the magnitude of the magnetic field using messb Auer sensor, and change the pressure in the working volume high-pressure chambers with diamond anvils to measure superconductivity at various pressures. 3. The method according to p. 1, characterized in that as a Mössbauer source of radiation using radioactive Mössbauer sources and / or synchrotron sources of Mössbauer radiation, which allow you to focus the radiation beam into a spot of micron sizes, which allows research on samples of micron and nanoscale, including those located in high-pressure chambers with diamond anvils. 4. The method according to p. 1, characterized in that the tin isotope Sn-119 is used as the Mössbauer isotope. 5. The method according to p. 1 and p. 2, characterized in that the measurement of superconductivity is carried out when exposed to high and superhigh pressures up to several megabars created in chambers with diamond anvils. 6. The method according to p. 1, characterized in that the critical parameters of the material are increased by exposing its sample to ultrahigh pressures. 7. The method according to p. 1, characterized in that the conditions for the transition of the test sample to the superconducting state provide by cooling it to cryogenic temperatures. 8. The method according to p. 1, characterized in that the magnetic field is applied perpendicularly or parallel to the plane of the sample 9. The method according to p. 1 and 2, characterized in that as the test samples use hydrides of various elements, for example, hydrogen sulfide, and in order to prevent chemical decomposition of hydrogen sulfide, it is maintained at a pressure above 130 GPa.