Доклады Академии наукДоклады Академии наук0869-5652The Russian Academy of Sciences1283010.31857/S0869-56524852158-161Research ArticleLaboratory modeling of the giant gravitational shift of gamma-radiation frequencyFortovV. E.<p>academician of the RAS</p>alex-s-49@yandex.ruShvartsburgA. B.alex-s-49@yandex.ruJoint Institute of High Temperature of the Russian Academy of Sciences2005201948521581612205201922052019Copyright © 2019, Russian academy of sciences2019<p>The control spectral shifts of resonant radiation frequency due to spatially non-uniform and non-stationary centrifugal acceleration, stipulated by the travel of radiation source along the centrifugal radius or modulation of the rotation frequency, are examined. These spectral variations pave the way to modeling of effects of non-uniform and non-stationary gravity field. The perspectives of flexible control of spectral lines shifts for the analysis of fine structure of radiation and absorption spectra are considered.</p>centrifugeequivalence principlemodeling of gravitational frequency shiftMossbauer resonant sourcemodeling of non-uniform and non-stationary gravity fieldcontrolled modulation of radiation spectrumцентрифугапринцип эквивалентностимоделирование гравитационного смещения частотымёссбауэровский резонансный источникмоделирование неоднородного и нестационарного поля тяготенияконтролируемая модуляция спектра излучения[Pound R.V., Rebka Jr. G. A. Gravitational Redshift in Nuclear Resonance // Phys. Rev. Lett. 1959. V. 3. № 9. P. 439-441.][Pound R. V., Snider J. L. Effect of Gravity on Nuclear Resonance // Phys. Rev. Lett. 1964. V. 13. № 18. P. 539-540.][Chou C. W., Hume D. B., Rosenband T., Wineland D. J. Optical Clocks and Relativity // Science. 2010. V. 329. P. 1630-1633.][Vessot R. F.C., Levine M. W., Mattison E. M., Blomberg E. L., Hoffman T. E., Nystrom G.U., Farrel B. F., Decher R., Eby P. B., Baugher C. R., Watts C. W., Teu- ber D.L., Wills F. D. Test of Relativistic Gravitation with a Space – Borne Hydrogen Maser // Phys. Rev. Lett. 1980. V. 45. № 26. P. 2081-2084.][Biriukov A. V., Kauts V. L., Kulagin V. V., Litvinov D. A., Rudenko V. N. Gravitational Redshift Test with the Space Radio Telescope ”RadioAstron” // Astronomy Reps. 2014. V. 58. № 11. P. 783-795.][Nobili A. M., Anselmi A. Relevance of the Weak Equivalence Principle and Experiments to Test It: Lessons from the Past and Improvements Expected in Space // Phys. Lett. A. 2018. V. 382. Iss. 33. P. 22052218.][Hay H. J., Schiffer J. P., Cranshow T. E., Egelstaff P. A. Measurement of the Red Shift in an Accelerated System Using the Mossbayer Effect in // Phys. Rev. Lett. 1960. V. 4. № 4. P. 165-166.][Kundig W. Transverse Doppler Effect in an Accelerated System // Phys. Rev. 1963. V. 129. № 6. P. 2371-2375.][Borisevich V. D., Levin E. V., Naumochkin V. V. The Optimal Structure in a Gas Centrifuge for Separating Uranium Isotopes // Soviet Atomic Energy. 1991. V. 70. № 1. P. 36-42.][Khabanova K.Yu., Kalganova E.S., Kolachevsky N.N. Accurate Frequency and Time Dissemination in the Optical Domain // Physics – Uspekhi. 2018. V. 61. № 2. P. 221-230.]