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319 Leona will occult Betelgeuse on 2023 Dec 12

This event (already predicted in 2022 actually) could be defined the most interesting occurring during 2023, even though limited to a small portion of the Earth’s surface, as visible below. Certainly a weird experience seeing Betelgeuse disappear from the sky for several seconds.

Credit : https://www.asteroidoccultation.com

I will use this occultation, choosing Potenza’s Observatory (IT, IAU code L28), where the event should occur at 01:13 UT, to show how orbital osculating elements of Asteroids downloadable from the available sources (MPC, Lowell Observatory, etc.) should be handled with care when used several months away from their epoch.

In the same time we are going to appreciate how accurate Horizons’ minor planets and IMCCE positions can be, clearly obtained by more sophisticated models.

The image below shows the position of Leona computed by means of the osculating elements referred to 2023 Feb 26:


At 01:13 UT (319) Leona is 180 arcsec (3′) distant from Betelgeuse, and it is not at least distance reached 6 hours later, 48 arcsec, as visible below.


Surely not a good prediction, but actually we are 10 months away from the epoch of the osculating elements and this behaviour is quite normal in this case. What if we decide to pick up the position from Horizons Ephemeris? Ok, let’s do it. The image below shows the query to the JPL System. I chose to ask for the apparent position for Potenza’s Observatory so no other corrections are necessary.


That done we can input these coordinates (at 01:13 UT) via copy and paste directly into the UrukFSP’s User Object Window, giving an appropriate label to distinguish the two Leona’s positions. Note that I haven’t applied any correction to the JPL data, as they are already apparent.


In this case an occultation has a huge chance of happening. The distance between the two objects is just 0.12 arcsec! An interesting exercise could be following the downloadable osculating elements trend as we get closer to December: theoretically the computed position should get better and better…..


Of course you can do a query to the IMCCE Ephemeris Service as well. I used the IAU code L28 for Potenza’s Observatory and obtained the apparent position visible below. A little difference in Declination (0.2″) with respect to JPL and the least distance appears to be in this case 0.27″. Small differences though.

Credit : IMCCE

In conclusion, if you need high precision with Asteroid positions don’t use downloadable osculating elements for periods longer than, say, a couple of months from their epoch. JPL and IMCCE Ephemeris Services can help in this case, using the User Object Window of course.

8 thoughts on “319 Leona will occult Betelgeuse on 2023 Dec 12”

  1. Hi
    It will indeed be very interesting to follow the gradual improvement in forecasts over the coming months.
    Regards

  2. Author

    May 2nd update:

    MPC orbit has no variations so far. Least distance 180″ and orbit still computed at February 3rd.
    Lowell orbit recently updated at April 28th. Least distance is down to 53.6″, a better value.

    Same time and location, of course.

  3. Author

    August 11 update:
    MPC and Lowell Observatory have updated Leona’s orbit to August 05 and August 04 respectively.

    MPC – Least distance 2.37 arcsec at 01:26 UT1
    Lowell – Least distance 2.35 arcsec at 01:26 UT1

    in both cases we have a better definition of Leona’s osculating elements.

  4. Author

    Last compare with the Horizons platform and osculating elements downloadable via Internet.
    Horizons wins the race hands down, together with the very accurate apparent position of Betelgeuse computed by UrukFSP. The osculating elements give a good position but are not adequate for handling events like occultations.

    319 Leona
    2023/12/12 01:13 UTC
    Potenza Observatory (IT)

    Horizons
    Apparent RA Apparent DEC Delta
    319 Leona 05 56 29.075 +07 24 43.18 1.80798412612735
    Betelgeuse 05 26 29.075 +07 24 43.29 (apparent position given by UrukFSP)

    JPL Osculating Orbit (orbit computed: N/A)
    319 Leona 05 56 29.54 +07 24 41.9 1.808033

    Minor Planet Center (orbit computed on 2023/11/19)
    319 Leona 05 56 29.54 +07 24 41.9 1.808033

  5. Author

    The occultation was less dramatic than expected, UAI (Italian Amateur Astronomers Association) reports. Naked eye observers placed on the path registered a small reduction of Betelgeuse brightness. Instrumental light fall was not so relevant as well, most likely due to the shape of 319 Leona.
    AC

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