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VGOS Intensives Ishioka-Onsala
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<p>The VLBI Global Observing System (VGOS) is the VLBI contribution to GGOS.&#160;During the last years, several VGOS stations have been established, the VGOS observation program has started, and by 2021 VGOS has achieved an operational state involving nine international VGOS stations.&#160;Further VGOS stations are currently being installed, so that the number of active VGOS stations will increase drastically in the near future.&#160;In the end of 2019 the International VLBI Service for Geodesy and Astrometry (IVS) decided to start a new and so-far experimental VGOS-Intensive series, called VGOS-B, involving Ishioka (Japan) and Onsala (Sweden).&#160;Both sites operate modern VGOS stations with 13.2~m diameter radio telescopes, i.e. ISHIOKA (IS) in Japan, and ONSA13NE (OE) and ONSA13SW (OW) in Sweden.&#160;In total 12 VGOS-B sessions were observed between December 2019 and February 2020, one every week, in parallel and simultaneously to legacy S/X INT1 Intensive sessions that involve the stations KOKEE (KK) on Hawaii and WETTZELL (WZ) in Germany.&#160;These 1-hour long VGOS-B sessions consist of more than fifty radio source observations, resulting in about 1.6 TB of raw data that are collected at each station.&#160;The scheduling of the VGOS-B sessions was done using <em>VieSched++</em> and the subsequent steps (correlation, fringe-fitting, database creation) were carried out at the Onsala Space Observatory using <em>DIFX</em> and <em>HOPS</em>.&#160;The resulting VGOS databases were &#160;analysed with several VLBI analysis software packages, involving <em>nuSolve</em>, <em>c5++</em> and <em>ASCOT</em>.&#160;In this presentation, we give an overview on the VGOS-B series, present our experiences, and discuss the obtained results.&#160;The derived UT1-UTC results were compared to corresponding results from standard legacy S/X Intensive sessions (INT1/INT2), as well to the final values of the International Earth Rotation and Reference Frame Service (IERS), provided in IERS Bulletin~B.&#160;<br>The VGOS-B series achieve 3-4 times lower formal uncertainties for the UT1-UTC results than standard legacy S/X INT series. &#160;Furthermore, the root mean square (RMS) agreement with respect to the IERS Bulletin B is&#160;30-40 % better for the VGOS-B results than for the INT1/INT2 results.</p>
Title: VGOS Intensives Ishioka-Onsala
Description:
<p>The VLBI Global Observing System (VGOS) is the VLBI contribution to GGOS.
&#160;During the last years, several VGOS stations have been established, the VGOS observation program has started, and by 2021 VGOS has achieved an operational state involving nine international VGOS stations.
&#160;Further VGOS stations are currently being installed, so that the number of active VGOS stations will increase drastically in the near future.
&#160;In the end of 2019 the International VLBI Service for Geodesy and Astrometry (IVS) decided to start a new and so-far experimental VGOS-Intensive series, called VGOS-B, involving Ishioka (Japan) and Onsala (Sweden).
&#160;Both sites operate modern VGOS stations with 13.
2~m diameter radio telescopes, i.
e.
ISHIOKA (IS) in Japan, and ONSA13NE (OE) and ONSA13SW (OW) in Sweden.
&#160;In total 12 VGOS-B sessions were observed between December 2019 and February 2020, one every week, in parallel and simultaneously to legacy S/X INT1 Intensive sessions that involve the stations KOKEE (KK) on Hawaii and WETTZELL (WZ) in Germany.
&#160;These 1-hour long VGOS-B sessions consist of more than fifty radio source observations, resulting in about 1.
6 TB of raw data that are collected at each station.
&#160;The scheduling of the VGOS-B sessions was done using <em>VieSched++</em> and the subsequent steps (correlation, fringe-fitting, database creation) were carried out at the Onsala Space Observatory using <em>DIFX</em> and <em>HOPS</em>.
&#160;The resulting VGOS databases were &#160;analysed with several VLBI analysis software packages, involving <em>nuSolve</em>, <em>c5++</em> and <em>ASCOT</em>.
&#160;In this presentation, we give an overview on the VGOS-B series, present our experiences, and discuss the obtained results.
&#160;The derived UT1-UTC results were compared to corresponding results from standard legacy S/X Intensive sessions (INT1/INT2), as well to the final values of the International Earth Rotation and Reference Frame Service (IERS), provided in IERS Bulletin~B.
&#160;<br>The VGOS-B series achieve 3-4 times lower formal uncertainties for the UT1-UTC results than standard legacy S/X INT series.
&#160;Furthermore, the root mean square (RMS) agreement with respect to the IERS Bulletin B is&#160;30-40 % better for the VGOS-B results than for the INT1/INT2 results.
</p>.
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