V. N. L'Vov scite author profile

V. N. L'Vov

5Publications

17Citation Statements Received

10Citation Statements Given

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Affiliations

Pulkovo Observatory, Russian Academy of Sciences, Institute of Theoretical Physics

Publications

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The observations of Near Earth Objects by the automatic mirror astrograph ZA–320M at Pulkovo observatory

et al. 2006

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At Pulkovo Observatory, we conduct observations of various Solar System bodies: major planets, their satellites, comets, and asteroids, including Near Earth Objects. For these purposes, a robotic telescope was constructed on the base of the ZA–320 Mirror Astrograph (D=320 mm, F=3200 mm). It can perform CCD observations of Solar System bodies with the limiting magnitude of up to 19.0.Independent ephemeris support is provided by the EPOS software package developed at Pulkovo Observatory; it includes tracing of catalogues of comets and asteroids, regular ephemeris calculations, and control of observations. CCD frame processing is done by the Apex automatic data reduction package developed at Pulkovo Observatory.In 2001-2006, more than 12000 observations of minor Solar System bodies were collected, including more than 6000 positions of 656 NEAs, about 1200 observations of 27 comets, and about 2000 observations of major planets satellites. The mean accuracy of obtained positions is 0″.09−0″.40. Results of observations are regularly submitted to the Minor Planet Center.Currently, ZA–320M is the 16-th of more than 680 telescopes in the worldwide rating of those that observe NEAs (by the number of observations).In the near future, our group is planning to start observations with another two robotic telescopes: MTM–500 (D=500 mm, F=4000 mm Maksutov) and 1-meter telescope (D=1000 mm, F=1200 mm) of the Pulkovo mountain station at Northern Caucasus (Kislovodsk, 2100 m above sea level). These two instruments will allow to increase the number of observations, their accuracy, and limiting magnitude (up to 20.5 mag).

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Forthcoming close angular approaches of planets to radio sources and possibilities to use them as GR tests

2009

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During close angular approaches of solar system planets to astrometric radio sources, the apparent positions of these sources shift due to relativistic effects and, thus, these events may be used for testing the theory of general relativity; this fact was successfully demonstrated in the experiments on the measurements of radio source position shifts during the approaches of Jupiter carried out in 1988 and 2002. An analysis, performed within the frames of the present work, showed that when a source is observed near a planet's disk edge, i.e., practically in the case of occultation, the current experimental accuracy makes it possible to measure the relativistic effects for all planets. However, radio occultations are fairly rare events. At the same time, only Jupiter and Saturn provide noticeable relativistic effects approaching the radio sources at angular distances of about a few planet radii. Our analysis resulted in the creation of a catalog of forthcoming occultations and approaches of planets to astrometric radio sources for the time period of 2008-2050, which can be used for planning experiments on testing gravity theories and other purposes. For all events included in the catalog, the main relativistic effects are calculated both for ground-based and space (Earth-Moon) interferometer baselines.

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Astrometric and photometric studies of the 2009 WZ104 asteroid as it approached the earth

et al. 2012

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The astrometric and photometric observations of the potentially hazardous 2009 WZ104 asteroid were carried out at the MTM 500M and ZA 320M automatic telescopes of the Pulkovo Observatory in December 2009. A total of 686 observations were performed in the integral band and 146 observations with B, V, R, and I filters on an arc of the orbit of 17°; these accounted for about 77% of all worldwide observations (http://www.minorplanetcenter.org/iau/ECS/MPCOBS/MPCOBS.html).On the basis of the obtained data, the orbit was improved and an estimation of the physical parameters of the asteroid was made. Estimates of the absolute stellar magnitude of the asteroid, H = (20.52 ± 0.04) m , as well as its size and mass, were obtained. The taxonomic class of the 2009 WZ104 asteroid (R or Q) was determined. A frequency analysis of the series of observations was carried out; periodicities in the asteroid's light variation were revealed using this method.

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Study of the Asteroid (13553) Masaakikoyama

et al. 2020

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An accuracy estimation of the World CCD asteroid observations in the years 1999–2005

Bykov

L'Vov

Izmailov

et al. 2008

Planetary and Space Science

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V. N. L'Vov

The observations of Near Earth Objects by the automatic mirror astrograph ZA–320M at Pulkovo observatory

Forthcoming close angular approaches of planets to radio sources and possibilities to use them as GR tests

Astrometric and photometric studies of the 2009 WZ104 asteroid as it approached the earth

Study of the Asteroid (13553) Masaakikoyama

An accuracy estimation of the World CCD asteroid observations in the years 1999–2005

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