UDC: 
DOI: 
10.22389/0016-7126-2018-933-3-6-16
1 Tolchelnikova S.A.
Year: 
№: 
933
Pages: 
6-16

Central Astronomical Observatory at Pulkovo of RAS

1, 
Abstract:
The influence of the IAU resolutions on replacement of optical reference system of coordinates for the radio system was discussed in several papers of Journees 2014: «Recent development and problems in ground-based and space astrometry». The subject has been continued in the paper [11], where the obstacles have been considered which until now does not permit the transition to radio reference either in geodesy, or in space or terrestrial astrometry. One more of revolutionary solutions discussed in this paper, is the striving to establish «dynamic foundation of astrometry» [5]. The establishment of the reference triads ICRS and ITRS, as well as the spherical frame ICRF with the three coordinate axes, is based on the presumptive possibility of studying the motion of celestial bodies, leaving aside the stage of studying the motion of their projections. It is announced that the celestial circles and vernal equinox have to be rejected as not useful any more [19, c. 165]. This leads to eliminating the possibilities of dynamical methods for studies of ecliptic and equatorial planes’ motions, to contradictions between theory and practice.
References: 
1.   Hershell J. Ocherki astronomii. / Рerevod A. Dresoshova. - V 2 tomah - Moscow: Katkov i Ko, - 1861. - 744 p.
2.   Dravskikh A. F., Finkel’shtein A. M. Radiointerferometrija kak sredstvo sovmestnogo reshenija osnovnykh zadach astrometrii i astrofiziki. Geodinamik i аstrometriya, - Кiev: Naukova dumka, - 1980. - pp. 137–157.
3.   Krejnin E. I. Absolutnye opredeleniya skloneniy zvezd s instrumentami, ne imejuzchimi tochnykh razdelennych krugov. Astronomicheskij zhurnal, - Vol. 45. 2. - 1968. - pp. 447–455.
4.   Krejnin E. I. Vybor optimal’nykh usloviy dlja opredelenya absoljutnykh skloneniy zvezd s astroljabijami. Astronomicheskij zhurnal, - Vol. 63. 3. - 1986. - pp. 589–596.
5.   Murray C. A. Vektornaya astrometriya. - Kiev: Naukova Dumka, - 1986. - 326 p.
6.   Milankovich M. Matematicheskaya klimatologiya i astronomocheskaya teoriya kolebaniy klimata. - Moskva– Leningrad: GONTI, - 1939. - 260 p.
7.   Nevskajia N. I. Dekart, Leibnitz i Peterburgskaya astronomicheskaya shkola XVIII v.. Problemy prostranstva, vremeni, dvizheniya, - Vol. 1. - 1997. - pp. 11–22.
8.   Newton I. Matematicheskije nachala natural’noyi fi losofii. - Moscow: Nauka, - 1989. - 688 p.
9.   Pellinen L. P Vysshaya geodesiya. - Moscow: Nedra, - 1987. - 264 p.
10.   Tolchelnikova S.A. (2009) O vzaimodejstvii astrometrii i geodezii v oblasti izucheniya vrashcheniya Zemli. (Vzglyad astronoma) About astronomy and geodesy interaction in Earth's rotation study (Astronomer's judgement). Geodesy and cartography, 70, 8. pp. 21–29.
11.   Tolchelnikova S.A. (2017) K obsuzhdeniju posledstvij revoljutsii v astrometrii nachala XXI v. On discussion of the consequences of revolution in astrometry at the start of XXI century. Geodesy and cartography, 78, 12. pp. 44-53. (In Russian). DOI: 10.22389/0016-7126-2017-930-12-44-53.
12.   Fedorov E. P. Orientirovka koordinatnych system v prostranstve i izucheniye systrmaticheskikh oshibok katalogov zvezd. Astrometriya i astrofi zika, 24. - 1974. - pp. 125–130.
13.   Fedorov E. P. Aleksandr Yakovlevich Orlov: zhizn’, tvorchestvo i nauchnoje nasledie. Geodinamika i astrometrija, - Kiev: Naukova dumka, - 1980. - pp. 7–24.
14.   Yatskuv Ya. S. Izuchenye vrazchenija Zemli – komplexnaja problema geodinamoki. Geodinamika i astrometriya, - Кiev: Naukova dumka, - 1980. - pp. 63–73.
15.   Yatskuv Ya. S., Gubanov V. S. Ob osnovnych koordinatnych sistemach, primtnjaemych v astrometrii i geodinamike. Geodinamika i astrometriya, - Кiev: Naukova dumka, - 1980. - pp. 110–119.
16.   Kovalevsky J., Muller I., Kolaczek B. (1989) Reference Frames in Astrometry and Geophysics. Dordrecht, Boston, London,. 474 p.
17.   Melchior P. (1972) Earth tides and polar motion. The upper mantle «tectonophysics». / Ed. A. Ritsema. Volume 13, pp. 361-372,
18.   Newcomb S. A. (1906) Compendium of Spherical Astronomy. Macmillan, N.-Y, 444 p.
19.   Walter H.G., Sovers O.J. (2000) Astrometry of Fundamental Catalogues (the Evolution from Optical to Radio Reference Frames). Springer-Verlag, Heidelberg, 232 p.
Citation:
Tolchelnikova S.A., 
(2018) O dinamicheskih osnovah sovremennoj astrometrii (K istorii poiskov XX veka) [On dynamic foundation of modern astronomy (To the history of quests in the XX century)]. Geodesy and Cartography = Geodezija i kartografija, 79, 3, pp. 6-16. (In Russian). DOI: 10.22389/0016-7126-2018-933-3-6-16
ARTICLE
Received: 12.01.2018
Accepted: 05.03.2018
Published: 20.03.2018

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2018 March DOI:
10.22389/0016-7126-2018-933-3

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