RECON: TNO occultation with 00YB2

Event between 00YB2 and star UC4-552-016841 with event index number of 144461

Geocentric closest approach at 2018/09/07 19:31:31 UTC

J2000 position of star is 05:37:15.7 +20:19:01
Equinox of date position of star is 05:38:19.7 +20:19:36
Stellar brightness R=15.6, use SENSEUP=128
Star is 54 degrees from the moon. Moon is 5% illuminated.
TNO apparent brightness V=23.3

TNO is 39.0 AU from the Sun and 39.1 AU from the Earth.
The TNO is moving 9.4 km/sec on the sky relative to the star, or, 1.2 arcsec/hr.
The 1-sigma error in the time of the event is 474 seconds.
The 1-sigma cross-track error in the shadow position is 2873 km.

The TNO has an absolute magnitude Hv=7.2
Diameter=217.8 km assuming a 5% albedo -- 23.1 sec chord
Diameter=88.9 km assuming a 30% albedo -- 9.4 sec chord
Dynamical classification is CLASSICAL
 
 
 
 
 
 
 
 

Star training set for 00YB2, (2018/09/07 19:32UT)
Object            RA         Dec     mag  sep  mel
Betelgeuse     05:56:11.0 +07:24:33  0.4 13.62  52
Alnath         05:27:28.5 +28:37:17  1.6  8.66  56
123Zet Tau     05:38:45.8 +21:09:08  3.0  0.83  54
PPM 094568     05:38:09.2 +20:44:19  8.5  0.41  54
PPM 094570     05:38:11.3 +20:22:09  9.8  0.06  54
00YB2          05:38:22.4 +20:19:38 15.6        53
Positions are for equinox of date

Azimuth is measured in degrees eastward from north. North is at an azimuth of 0, due East is at an azimuth of 90 degrees, due South is 180, and due West is 270.

Do not use the listing below for the RECON CPC 1100 telescopes. This is provided for other non-team facilities.

Star training set for 00YB2, (2018/09/07 19:32UT)
Object            RA         Dec     mag  sep  mel
Betelgeuse     05:55:10.3 +07:24:26  0.4 13.62  52
Alnath         05:26:17.5 +28:36:24  1.6  8.66  56
123Zet Tau     05:37:38.7 +21:08:33  3.0  0.83  54
PPM 094568     05:37:02.4 +20:43:43  8.5  0.41  54
PPM 094570     05:37:04.7 +20:21:33  9.8  0.06  54
00YB2          05:37:15.7 +20:19:01 15.6        54
Positions are for J2000

Event circumstances last updated at 2017/12/05 18:55:27 UT

Marc W. Buie, Southwest Research Institute

RECON