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THE DIFFERENCE IN GRAVITATIONAL POTENTIALS AT TWO GROUND POINTS MEASURING EXPERIMENT USING THE DUPLEX SATELLITE METHOD
- Authors: Naumov A.V.1, Smirnov F.R.1, Fateev V.F.1
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Affiliations:
- Russian Metrological Institute of Technical Physics and Radio Engineering Measurements
- Issue: Vol 102, No 2 (2025)
- Pages: 148-156
- Section: Articles
- URL: https://journals.rcsi.science/0004-6299/article/view/294076
- DOI: https://doi.org/10.31857/S0004629925020062
- EDN: https://elibrary.ru/GGZMLN
- ID: 294076
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Abstract
For the first time in the Russian Federation, an experiment on measuring the difference in gravitational potentials and orthometric heights of two ground points using a quantum clock and a duplex satellite communication method was conducted. The measurement points were located on the territory of the Federal State Unitary Enterprise “VNIIFTRI” at a distance of 850 m from each other with a height difference of about 21 m. The Russian geostationary satellite Express-80 was used as a repeater, duplex communication was established using stationary and relocatable sets of duplex equipment. The difference in orthometric heights was measured with an error of about 2.8 m.
About the authors
A. V. Naumov
Russian Metrological Institute of Technical Physics and Radio Engineering MeasurementsMendeleevo, Moscow region, Russia
F. R. Smirnov
Russian Metrological Institute of Technical Physics and Radio Engineering Measurements
Email: frsmirnof@vniiftri.ru
Mendeleevo, Moscow region, Russia
V. F. Fateev
Russian Metrological Institute of Technical Physics and Radio Engineering MeasurementsMendeleevo, Moscow region, Russia
References
- В.Ф. Фатеев, Релятивистская метрология околоземного пространства-времени (Менделеево, ФГУП “ВНИИФТРИ”, 2017).
- В.Ф. Фатеев, Е.А. Рыбаков, Ф.Р. Смирнов, В.П. Сысоев, С.С. Донченко, А.А. Карауш О.В. Колмогоров, В.П. Лопатин, Квантовые нивелиры и сеть “Квантовый футшток”. Теория, эксперименты, макетирование (Менделеево, ФГУП “ВНИИФТРИ”, 2024).
- В.Ф. Фатеев, Е.А. Рыбаков, Ф.Р. Смирнов, ПЖТФ 43 (10), 91 (2017).
- В.Ф. Фатеев, Е.А. Рыбаков, ДАН. Физика, технические науки 496 (1), 41 (2020).
- В.Ф. Фатеев, И.Ю. Игнатенко, Альманах современной метрологии 1 (29),106 (2022).
- Peng Cheng, Wenbin Shen, Xiao Sun, Chenghui Cai, Kuangchao Wu and Ziyu Shen, Remote Sens. 14, 451 (2022).
- А.В. Наумов, Альманах современной метрологии 3 (8), 162 (2016).
- Государственный первичный эталон единиц времени, частоты и национальной шкалы времени ГЭТ 1-2022:
- https://www.vniiftri.ru/standards/izmereniyavremeni-i-chastoty/get-1-2022-gosudarstvennyypervichnyy-etalon-edinits-vremeni-chastoty-inatsionalnoy-shkaly-vremeni/
- J.A. Barnes, in 15th Annual PTTI Meeting, Proc. 551 (1983).
- Р.С. Кобяков, С.Ю. Медведев, К.Г. Мишагин, А.В. Наумов, И.Ю. Блинов, Альманах современной метрологии 2 (22), 73 (2020).
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