The Minor Planet Bulletin
BULLETIN OF THE MINOR PLANETS SECTION OF THE ASSOCIATION OF LUNAR AND PLANETARY OBSERVERS


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The Minor Planet Bulletin is the journal for almost all amateurs and even some professionals for publishing asteroid photometry results, including lightcurves, H-G parameters, color indexes, and shape/spin axis models. It is considered to be a refereed journal by the SAO/NASA ADS. All MPB papers are indexed in the ADS.

Print subscriptions are no longer available to individuals. Institutions (e.g., college libraries) can still obtain print copies via a special subscription. See details in MPB 37-4 or contact the editor, Richard Binzel.

Annual voluntary contributions of $5.00 or more in support of the publication are welcome.
Please send a check, drawn on a U.S. bank and payable in U.S. funds, to "Minor Planet Bulletin" and send it to:

Minor Planet Bulletin
c/o Melissa Hayes-Gehrke
UMD Astronomy Department
1113 PSC Bldg 415
College Park, MD 20742


Authors Guide and Word Templates   (v.2.9: updated 2019 November 14)
The ZIP file contains the Authors Guide PDF as well as a "starter" paper in Word 97 (DOT) and Word 2007+ (DOTX).
Please read this updated guide since there are a number of changes from previous guides.
  • The Pts column is no longer required and has been removed from the template for the standard table
    to allow more room for the other columns.
  • The phase column should have only two values: for the first and last date in the range.
    If the phase reaches an extrema between those dates, put an asterisk before the first value. For example,
       *7.2,13.7.
  • Use semicolons to separate names in the references section. For example:
       Smith, J.J.; Jones, A.A. (2019).
    This also applies if using several references to the same author in the text. For example:
    "This asteroid was observed at three previous apparitions (Jones, 2015; 2017; 2018)..."

Cumulative Index to Volumes 1-45
Cumulative Asteroid Lightcurve Index (Volumes 1 through 46-2)

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Vol 1-7 run Jul-Jun. Vol 8-present run Jan-Dec. Only papers indexed in the ADS are included. Earlier volumes often contain more papers than listed here. It's recommended to download the full issue in vol 1-9.

Volume 48 (2021)
    
    
    

Volume 47 (2020)

Volume 46 (2019)

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Issue 48-3 (2021 Jul-Sep)
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Asteroid Photometry from the Preston Gott Observatory
Pages 213-214
Clark, Maurice

Asteroid period and amplitude results obtained at the Preston Gott Observatory during December 2020 and January 2021 are presented.

In Memoriam: Derald D. Nye (1935-2021)
Pages 201
Binzel, Richard

In this space we note the March 26 passing of Derald D. Nye, retired Distributor for the Minor Planet Bulletin, having served in that role for 37 years from 1983 through 2019; spanning MPB volumes 10- 46.

Lightcurve Analysis of Asteroids (21242) 1995 WZ41 and (44896) 1999 VB12
Pages 201-203
Odden, Caroline E.; Cahill, Claire; Darling, Victoria; Ellsweig, Ethan; Mao, Troy; Wang, Katherine; Xie, Yuxin; Zhou, Jeremy

Photometric observations of asteroids (21242) 1995 WZ4 and (144896) 1999 VB12 and were made from the Phillips Academy Observatory (PAO) from 2020 December 23 to 2021 February 25. The respective rotational periods and amplitudes were determined to be: (21242) 1995 WZ41, P = 5.452 ± 0.001 h, A = 0.58 ± 0.07 mag; (44896) 1999 VB12, P = 8.054 ± 0.001 h, A = 0.69 ± 0.07 mag.

Lightcurve Based Rotational Period for Asteroids 1995 WZ41 and 99942 Apophis
Pages 203-204
Loera-González, Pablo; Olguín, Lorenzo; Saucedo-Morales, Julio; Núñez-López, Ramona; Domínguez-González, Rafael

Asteroids (21242) 1995 WZ41 and 99942 Apophis were studied during the late 2020 and early 2021 at the Observatorio Estelar Carl Sagan at Universidad de Sonora. We obtained for the former a period P = 5.4534 ± 0.0002 h and A = 0.56 mag, and for the later P = 30.4966 ± 0.0033 h and A = 0.63 mag.

Rotational Period and Lightcurve Determination of 3390 Demanet and (18640) 1998 EF9
Pages 205-206
Noschese, Alfonso; Vecchione, Antonio

Photometric observations of two asteroids were performed in order to acquire lightcurves and to determine the rotational periods. The synodic period and lightcurve amplitude were found for 3390 Demanet and (18640) 1998 EF9.

Rotation Period Determination for Asteroids 2243 Lonnrot, (10859) 1995 GJ7, (18640) 1998 EF9 and (49483) 1999 BP13
Pages 206-208
Marchini, Alessandro; Cavaglioni, Leonardo; Papini, Riccardo; Salvaggio, Fabio

Photometric observations of four main-belt asteroids were conducted in order to determine their synodic rotation periods. For 2243 Lonnrot we found P = 3.813 ± 0.004 h, A = 0.14 ± 0.05 mag; for (10859) 1995 GJ7 we found P = 2.956 ± 0.001 h, A = 0.17 ± 0.05 mag; for (18640) 1998 EF9 we found P = 3.630 ± 0.001 h, A = 0.63 ± 0.02 mag; for (49483) 1999 BP13 we found P = 6.365 ± 0.005 h, A = 0.24 ± 0.03 mag.

Lightcurve and Rotation Period of the Tumbling Asteroid 1513 Matra
Pages 209
Pilcher, Frederick; Benishek, Vladimir

Minor planet 1513 Matra is tumbling with a main period of 117.6 ± 0.1 h, maximum amplitude 0.67 ± 0.02 mag, and second period near 92.3 h.

Determining the Rotational Period of Main-Belt Asteroid 282 Clorinde
Pages 210
Bonamico, Roberto; van Belle, Gerard

Based on CCD photometric observations of the main-belt asteroid 282 Clorinde, we report the results of the lightcurve analysis: P = 49.353 ± 0.004 h, A = 0.26 mag.

Rotation Period of Koronis Family Member (1442) Corvina
Pages 211-212
Silvan, Stephen M.; Wilkin, Francis P.

We report lightcurve observations of (1442) Corvina made during 2021 March. Analysis of our data, together with constraints from survey “sparse” data recorded during the 2019 and the 2020-21 apparitions, yields an unambiguous rotation period of 77.92 ± 0.03 h.

Lightcurves of Four Asteroids
Pages 215-216
Ferrero, A.

In this paper we present the lightcurves of four main-belt asteroids: 2712 Keaton, P = 3.360 ± 0.001 h, A = 0.18 mag; 4422 Jarre, P = 7.013 ± 0.001 h, A = 0.11 mag; (5343) 1999 RA44, P = 590.48 ± 0.46 h, A = 0.57 mag; (49548) 1999 CP83, P = 2.758 ± 0.001 h, A = 0.11 mag.

Lightcurves and Rotation Periods of 47 Aglaja, 504 Cora, 527 Euryanthe, 593 Titania, and 594 Mireille
Pages 217-218
Pilcher, Frederick

Synodic rotation periods and amplitudes are found for 47 Aglaja: 13.175 ± 0.002 h, 0.02 mag; 504 Cora: 7.5872 ± 0.0002 h, 0.18 ± 0.01 mag; 527 Euryanthe: 42.75 ± 0.01 hours, 0.14 ± 0.01 mag; 593 Titania: 9.899 ± 0.001 h, 0.26 ± 0.02 mag; 594 Mireille: 4.9685 ± 0.0002 hours, 0.32 ± 0.02 mag.

Collaborative Asteroid Photometry from UAI: 2021 January-March
Pages 219-222
Franco, Lorenzo; Marchini, Alessandro; Cavaglioni, Leonardo; Papini, Riccardo; Privitera, Chiara Angelica; Baj, Giorgio; Galli, Gianni; Scarfi, Giulio; Aceti, Pietro; Banfi, Massimo; Bacci, Paolo; Maestripieri, Martina; Mannucci, Massimiliano; Montigiani, Nico; Tinelli, Luciano; Mortari, Fabio

Photometric observations of six asteroids were made in order to acquire lightcurves for shape/spin axis modeling. The synodic period and lightcurve amplitude were found for 374 Burgundia, 472 Roma, 593 Titania, 1106 Cydonia, 1152 Pawona, and 3332 Raksha. We also found color index (V-R) for 472 Roma and 1152 Pawona along with H-G parameters for: 472 Roma and 3332 Raksha.

Photometric Obersvations of (68347) 2001 KB67, (494999) 2010 JU39, and (455432) 2003 RP8
Pages 223-224
Newcomb, Steven D.; Fieber-Beyer, Sherry K.

CCD Photometric observations were obtained of (68347) 2001 KB67, (494999) 2010 JU39, and (455432) 2003 RP8 between June 2018 and August 2019. The rotation rates determined for (68347) 2001 KB67 and (455432) 2003 RP8 were similar to those found in previous research, but the period for (494999) 2010 JU39 differs from previously published results.

Lightcurve Analysis of Asteroids 1939 Loretta, 2099 Opik, 2699 Kalinin, 2779 Mary, 3108 Lyubov, 5182 Bray, and 9098 Toshihiko
Pages 225-227
Fauerbach, Michael

Photometric observations of seven main-belt asteroids were obtained on five nights between 2019 November 22 and 2019 December 28. The following rotational periods were determined: 1939 Loretta, 23.92 ± 0.02 h; 2099 Opik, 6.44 ± 0.01 h; 2699 Kalinin, 2.928 ± 0.001 h; 2779 Mary, 3.62 ± 0.01 h; 3108 Lyubov, 4.83 ± 0.01 h; 5182 Bray, 2.88 ± 0.01 h; 9098 Toshihiko, 3.46 ± 0.01 h.

Lightcurves of Fourteen Asteroids
Pages 228-233
Dose, Eric V.

By applying dozens of comparison stars from the ATLAS refcat2 catalog to each working image, we have obtained lightcurves and synodic rotation periods for fourteen asteroids.

357 Ninina and 748 Simeisa – Two Asteroids with Earth Commensurate Rotation Periods
Pages 233-235
Pilcher, Frederick; Franco, Lorenzo; Marchini, Alessandro; Oey, Julian

A global collaboration of observers from Australia, Europe, and North America found synodic rotation periods and amplitudes for 357 Ninina 35.983 ± 0.001 h, 0.11 ± 0.01 magnitudes; 748 Simeisa 11.903 ± 0.001 h, 0.08 ± 0.01 magnitudes.

Lightcurve Analysis of Ten Asteroids
Pages 236-238
Owings, Larry E.

Lightcurves for ten main-belt asteroids were obtained at the Barnes Ridge Observatory from 2019 July 24 through 2020 November 05. Synodic rotation periods and amplitudes are found for nine of the ten main-belt asteroids. Their synodic rotation periods and lightcurve amplitudes are: 2158 Tietjen, 8.65742 h, 0.41 mag; 3313 Mende, 13.3354 h, 0.26 mag; 3989 Odin, 5.3220 h, 0.16 mag; 4021 Dancey, 4.1085 h, 0.15 mag; 4103 Chahine, 104.9519 h, 0.80 mag; 5996 Julioangel, 9.7435 h, 0.26 mag; 7527 Marples, 9.0899 h, 0.49 mag; 9545 Petrovedmosti, 5.6649 h, 0.28 mag; 21242 1995 WZ41, 5.45303 h, 0.43 mag.

Period Determinations for Twenty Asteroids
Pages 239-245
Polakis, Tom

Phased lightcurves and synodic rotation periods for 20 main-belt asteroids are presented, based on CCD observations made from 2020 December through 2021 February. All the data have been submitted to the ALCDEF database.

Main-belt Asteroids Observed from CS3: 2021 January to March
Pages 246-267
Stephens, Robert D.; Coley, Daniel R.; Warner, Brian D.

CCD photometric observations of 24 main-belt asteroids were obtained at the Center for Solar System Studies (CS3) from 2021 January to March. In addition, 15 datasets dating back to 2013, thought to have been lost to a crashed hard drive, were recovered when a USB drive containing the reduced measurements was found. Finally, 8 pole/shape models are presented.

Lightcurve and Spin Rates of Earth Co-orbital Asteroids
Pages 268-271
Borisov, Galin; Christou, Apostolos A.; Bagnulo, Stefano; Cellino, Alberto

We present photometric optical lightcurves and derived rotation periods for a sample of seven Earth co-orbital asteroids: 2008 WM64 (2.356 ± 0.033 h), 2016 AU8 (4.698 ± 0.013 h), 2000 EE104 (13.324 ± 1.135 h), 2018 EB (2.600 ± 0.437 h), 2014 KZ44 (2.797 ± 0.596 h), 2016 JP (3.288 ± 0.224 h), and 2014 KQ76 (2.953 ± 0.063 h). These observations were carried out at the Bulgarian National Astronomical Observatory - Rozhen using the FoReRo2 instrument attached on the 2mRCC telescope.

1803: A Confirmed Binary Asteroid
Pages 272-273
Polakis, Tom; Stephens, Robert D.

Observations made from February through March 2021 led to the discovery that 1803 Zwicky is an asynchronous binary system. The primary body has a rotation period of 2.7329 ± 0.0002 h, and the orbital period is 28.46 ± 0.02 h. The small lightcurve amplitude suggests a spherical shape. From the mutual event depths we infer a minimum secondary-to-primary mean diameter ratio of 0.26 ± 0.02.

On Confirmed and Suspected Binary Asteroids Observed at the Center for Solar System Studies
Pages 274-280
Warner, Brian D.; Stephens, Robert D.; Coley, Daniel R.

Using data from observations made at the Center for Solar System Studies from 2021 January through March along with recovered legacy data, we report on the analysis of confirmed and suspected binary asteroids 2419 Moldavia, 2873 Binzel, 3561 Devine, 4383 Suruga, 4666 Dietz, 16525 Shumarinaiko, (88188) 2000 XH44, (416694) 2004 YR32, and 1999 RM45.

Lightcurve and Rotation Period Determinations for 25 Asteroids
Pages 280-285
Benishek, Vladimir

Lightcurves and synodic rotation periods for 25 asteroids determined from CCD photometric data acquired at Sopot Astronomical Observatory (SAO) over the time span 2020 July - 2021 April are summarized in this paper.

Lightcurve Analysis for Nine Near-Earth Asteroids
Pages 286-293
Birtwhistle, Peter

Lightcurves and amplitudes for nine near-Earth asteroids observed from Great Shefford Observatory during close approaches in 2021 are reported: 2020 TB12, 2020 YE5, 2021 AU, 2021 CO, 2021 DP, 2021 DX1, 2021 EB1, 2021 EX1 and 2021 FH. All have rotation periods faster than the 2.2h spin barrier and five appear to show signs of tumbling.

Near-Earth Asteroid Lightcurve Analysis at the Center for Solar System Studies: 2021 January - March
Pages 294-302
Warner, Brian D.; Stephens, Robert D.

Lightcurves of 20 Near-Earth asteroids (NEAs) obtained at the Center for Solar System Studies (CS3) from 2021 January through March were analyzed for rotation period, peak-to-peak amplitude.

Lightcurve Analysis of Hilda Asteroids at the Center for Solar System Studies: 2021 January-March
Pages 303-308
Warner, Brian D.; Stephens, Robert D.; Coley, Daniel R.

New CCD photometric observations of ten Hilda asteroid members were made from 2021 January through March: 153 Hilda, 190 Ismene, 1202 Marina, 2067 Aksnes, 3990 Heimdal, 6237 Chikushi, (7458) 1984 DE1, 8743 Keneke, and (23186) 2000 PO8. Two of the objects, 3990 Heimdal and 8743 Keneke, are suspected to be in a tumbling state.

General Report of Position Observations by the ALPO Minor Planets Section for the Year 2020
Pages 309-312
Pilcher, Frederick

Observations of positions of minor planets by members of the Minor Planets Section in calendar year 2020 are summarized.

All in the Family: Upcoming Changes in the LCDB
Pages 313-315
Warner, Brian D.; Harris, Alan W.

Since 2005, the asteroid lightcurve database (LCDB; Warner et al., 2009) used osculating orbital elements to assign family/group membership. Including special subgroups, e.g., inner main-belt (MB-I) versus inner main-belt comets (MB-IC), there were fewer than 33 families/groups. The LCDB release expected in 2021 April or May, will incorporate families defined by Nesvorny et al. (2015; Nesvorny, 2015) and additional families defined on the AstDys web site. The change will include revised default albedo and phase slope parameter (G on H-G system) values for each family. In addition, the LCDB will include provisions for data on the H-G12 or H-G1G2 system (Muinonen et al., 2010), which has been formally adopted by the International Astronomical Union. The details of these changes are explained here.

Spin-Shape Model for 374 Burgundia
Pages 316-318
Franco, Lorenzo; Marchini, Alessandro; Papini, Riccardo; Baj, Giorgio; Scarfi, Giulio; Mortari, Fabio; Aceti, Pietro; Schmidt, Richard E.; Koff, Robert A.

We present a shape and spin axis model for main-belt asteroid 374 Burgundia. The model was achieved with the lightcurve inversion process, using combined dense photometric data acquired from four apparitions beetween 2000-2021 and sparse data from USNO Flagstaff. Analysis of the resulting data found a sidereal period P = 6.96397 ± 0.00002 hours and two mirrored pole solutions at (λ = 9°, β = 38°) and (λ = 178°, β = 28°) with an uncertainty of ± 10 degrees.

Lightcurve Photometry Opportunities: 2021 July-September
Pages 318-323
Warner, Brian D.; Harris, Alan W.; Durech, Josef; Benner, Lance A.M.

We present lists of asteroid photometry opportunities for objects reaching a favorable apparition and having either none or poorly-defined lightcurve parameters. Additional data on these objects will help with shape and spin axis modeling via lightcurve inversion. We also include lists of objects that will be the target of radar observations. Lightcurves for these objects can help constrain pole solutions and/or remove rotation period ambiguities that might not come from using radar data alone.

In This Issue
Pages 324
Warner, Brian D.

This list gives those asteroids in this issue for which physical observations (excluding astrometric only) were made. This includes lightcurves, color index, and H-G determinations, etc. In some cases, no specific results are reported due to a lack of or poor quality data. The page number is for the first page of the paper mentioning the asteroid. EP is the "go to page" value in the electronic version.


copyright©2017 Brian D. Warner. Funding to support this web site is provided by NASA grant NSSC 80NSSC18K0851