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.

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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
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Authors Guide and Word Templates   (v.3.0: updated 2024 February 2)
The ZIP file contains the Authors Guide PDF as well as a "starter" paper in Word 2007+ (DOTX).
Those using Word 97 (DOC/DOT) are encouraged to download OpenOffice and convert their files to the most recent Word format (DOCX).
Please read this updated guide since there are a number of changes from previous guides.
  • A new, optional, table is available for those wanting to include physical and discovery information
    in a more accessible way.
    See the announcement in Minor Planet Bulletin 51-2.
  • 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 51-2)

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Volume 52 (2025)
    
    
    
    

Volume 51 (2024)

Volume 50 (2023)

Volume 49 (2022)

Volume 48 (2021)

Volume 47 (2020)

Volume 46 (2019)

Volume 45 (2018)

Volume 44 (2017)

Volume 43 (2016)

Volume 42 (2015)

Volume 41 (2014)

Volume 40 (2013)

Volume 39 (2012)

Volume 38 (2011)

Volume 37 (2010)

Volume 36 (2009)

Volume 35 (2008)

Volume 34 (2007)

Volume 33 (2006)

Volume 32 (2005)

Volume 31 (2004)

Volume 30 (2003)

Volume 29 (2002)

Volume 28 (2001)

Volume 27 (2000)

Volume 26 (1999)

Volume 25 (1998)

Volume 24 (1997)

Volume 23 (1996)

Volume 22 (1995)

Volume 21 (1994)

Volume 20 (1993)

Volume 19 (1992)

Volume 18 (1991)

Volume 17 (1990)

Volume 16 (1989)

Volume 15 (1988)

Volume 14 (1987)

Volume 13 (1986)

Volume 12 (1985)

Volume 11 (1984)

Volume 10 (1983)

Volume 9 (1982)

Volume 8 (1981)

Volume 7 (1980)

Volumes 6-7 (1979)

Volumes 5-6 (1978)

Volumes 4-5 (1977)

Volumes 3-4 (1976)

Volumes 2-3 (1975)

Volumes 1-2 (1974)

Volume 1 (1973)

  
Issue 52-4 (2025 Oct-Dec)
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Lightcurves and Rotation Periods of Nearearth Asteroids (137170) 1999 HF1 and 2025 GB
Pages 279-280
Duin, Heiko

Photometric observations of two near-Earth asteroids were conducted to determine their synodic rotation periods. It was found for (137170) 1999 HF1 that P = 2.3193 ± 0.0003 h with A = 0.150 ± 0.03 mag and for 2025 GB that P = 0.172 ± 0.0003 h with A = 1.04 ± 0.08 mag

Lightcurve Analysis of NEO 2025 EF4
Pages 281-283
Birtwhistle, Peter; Privett, Grant; Hawley, Wayne; Gout, Jean-François; Odeh, Mohammad Shawkat; Pratt, Alexander R.03 h with A = 1.04 ± 0.08 mag

The analysis of photometric observations of the NEO 2025 EF4 obtained by a collaboration of six observers in three countries during March 2025 indicates that Apollo 2025 EF4 has tumbling rotation with a dominant synodic period of 0.26049 ± 0.00001 h, amplitude 0.55 ± 0.15 mag and a secondary period of 0.23552 ± 0.00002 h, amplitude 0.29 ± 0.15 mag.

761 Brendelia: A Newly Identified Binary Asteroid from Pro-Am Collaboration
Pages 284-287
Colazo, Milagros; Colazo, Carlos; Amelotti, Víctor; Melia, Raúl; Suárez, Néstor; Santos, Francisco; Monteleone, Bruno; Ciancia, Giuseppe; Wilberger, Aldo; Morales, Mario; Anzola, Marcos; Stechina, Ariel; Scotta, Damián; García, Alberto; Primucci, Emilio

Photometric observations taken by GORA observatories during 2024 July 24 - August 5 revealed that minor planet 761 Brendelia is a binary system with an orbital period of 57.079 ± 0.016 h. Mutual eclipse/occultation events that are 0.6-0.8-magnitude deep suggest that both components are of similar sizes. This configuration also suggests that the pair has reached tidal coupling, which would explain why their rotation periods are both 58 hours. Eclipses are occurring every 29 hours. We applied relative photometry assigning V magnitudes to the calibration stars. The image acquisition was performed without filters and with exposure times of a few minutes. All images used were corrected using dark frames and, in some cases, bias and flat-field corrections were also used. Photometry measurements were performed using FotoDif software and for the analysis, we employed Períodos software (Mazzone, 2012).

Two New Lightcurves for 1209 Pumma and Its Obliquity and Lightcurve Amplitude
Pages 288-289
Romanishin, W.

1209 Pumma is an asteroid showing relatively sharp V-shaped dips in its lightcurve. Two new lightcurves are presented that should aid future shape modelling.

Lightcurve Analysis for (36197) 1999 TZ91
Pages 289
Fornas, Gonzalo; Pilcher, Frederick

Photometric observations are reported for (36197) 1999 TZ91. We derived the rotational synodic period of 12.23275 ± 0.0004 h and amplitude 0.8 mag.

Lightcurves of Asteroid (1363) Herberta in 2023 and 2024
Pages 290-291
Ramsey, Abigail G.; Wilkin, Francis P.; Castro, Eduardo; Hizmo, Glauk; Zora, Dimitrios-Vasileios

We present a composite lightcurve for Koronis family asteroid (1363) Herberta in 2024 based on six nights, and a lightcurve from a single night in 2023. The amplitude was 0.16 ± 0.04 mag in 2024 and 0.14 ± 0.02 mag in 2023. Our derived period of 3.0166 ± 0.0003 h is consistent with previous results.

Photometric Observations of Asteroid 3760 Poutanen
Pages 291-292
Marchini, Alessandro; Papini, Riccardo; Salvaggio, Fabio

Photometric observations of the inner main-belt asteroid 3760 Poutanen were conducted to verify its synodic rotation period. We found and confirmed: P = 2.956 ± 0.001 h with A = 0.18 ± 0.03 mag.

Lightcurve and Rotation Period of Main-Belt Asteroid 3961 Arthurcox
Pages 293
Hayes-Gehrke, Melissa N.; Delavan-Hoover, Carter; Johnston, Chase; Krishnamurthy, Pranav; Longkeng, Cyrille; McNeal, Emily; Mengistu, Salem; Mooney, James; Samblanet, Aleko; Scholz, Trevor; Ward, Kaleb; White, Hannah; Whitken, Grace

Five nights of observations of 3961 Arthurcox between 2025 March 30 and April 23 were combined to create a phased lightcurve. After analysis of observation data with MPO Canopus, the rotation period was determined to be 57.01 ± 0.25 h.

Rotation Period Determination for 3048 Guangzhou
Pages 294
Mannucci, Massimiliano; Montigiani, Nico

CCD photometric observations of the main-belt asteroid 3048 Guangzhou were obtained over three nights from January to March 2025. Analysis of the lightcurve using MPO Canopus revealed a synodic rotation period of 3.81040 ± 0.00004 hours with a peak-to-peak amplitude of 0.18 magnitudes. The result is in perfect agreement with previous determinations.

Lightcurve and Rotation Period of 4163 Saaremaa
Pages 295-296
Hayes-Gehrke, Melissa N.; De Leon,, Kathryn; Deredita, Nalani; Dobson, Ebony; Frenkel, Nathan; Hari, Gautham; Hughes, Sean; Kaza, Reni; Li, Vanessa; Schmitz, William; Shirland Jr., Dereck; Sitther, Hannah; Wagger, Marc; Brincat, Stephen M.; Bucek, Marek; Galdies, Charlesons.

We report photometric observations for main-belt asteroid 4163 Saaremaa. The observations were performed during March and April 2025, from the T21 Telescope at Beryl Junction, Utah; Flarestar Observatory in Malta; Luckystar Observatory in Slovakia; and Znith Observatory in Malta. Lightcurve analysis indicates a rotation period of 26.315 ± 0.025 h and amplitude of 0.56 ± 0.07 mag. A rotation period of 26.3268 ± 0.0002 h was previously observed by Ïurech, et al. (2019) using Gaia spacecraft photometry, but no lightcurve was published.

A Lightcurve Analysis of Main Belt Asteroid 5295 Masayo
Pages 296-297
Hayes-Gehrke, Melissa N.; Benitez, Carmen; Bibbo,, Jack; Chandrasekaran, Adith; Drill, Stina; Fleegle, Brayson; Kaplan, Ryan; Lerdboon, Hana; Nagy, Jackson; Peddinti, Sriya; Trivedi, Aadi; Zhang, Yiwen; Brincat, Stephen M.; Galdies, Charles; Bucek, Marek

Using MPO Canopus to conduct lightcurve analysis of eight nights of observation from 2025 March 30 to 2025 April 23, we developed a periodic lightcurve and determined the preliminary rotation period of asteroid 5295 Masayo as 4.13 ± 0.01 h.Marek

Discovery of the Binarity of the Main-Belt Asteroid 8297 Gerardfaure
Pages 297-299
Faure, Gerard; Jongen, Yves; Pravec, Petr; Wünsche, Anaël

We report the discovery of the binarity of the asteroid (8297) Gerardfaure during its near-perihelic opposition at the end of 2025 January. From 2025 January 27 to February 8, 21 imaging sessions were carried out, 10 of which made it possible to discover that 8297 has a synodic rotation period of 3.0459 ± 0.0003 h, with a lightcurve amplitude of 0.14 mag. In addition, it is accompanied by a satellite with an orbital period of 18.82 ± 0.01 h. Mutual eclipse/occultation events with a depth of 0.13 magnitudes indicate a lower limit on the secondary to primary mean diameter ratio of 0.36.

Lightcurve and Rotation Period Analysis for 19774 Diamondback
Pages 300-301
Hayes-Gehrke, Melissa N.; Kerns, Justin; Sullivan, Collin; Lau, Ethan; Sinha, Chayanika; Weintraub, Benjamin; Hale, Jonathan; Sunter, Chase; Anusuri, Rishi; Zajac, Brian; Yang, Jimmy; Lizas, CC; Schenck, Zahra

An approximate rotation period and lightcurve are presented for 19774 Diamondback (preliminary designation 2000 OS51). We found a tentative period of 51.17± 0.53 h with an amplitude of 0.63 ± 0.11 mag.

Lightcurve and Rotation Period for 3507 Vilas and 4185 Phystech
Pages 302-303
Fauerbach, Michael

Photometric observations of two main-belt asteroids were obtained to verify their synodic rotation periods. We found: 3507 Vilas P = 4.755 ± 0.001 h with A = 0.29 ± 0.02 mag; 4185 Phystech P = 4.668 ± 0.001 h with A = 0.47 ± 0.04 mag.with an amplitude of 0.63 ± 0.11 mag.

Lightcurves And Rotation Periods of 57 Mnemosyne, 818 Kapteynia, 896 Sphinx, and 992 Swasey
Pages 303-3045
Pilcher, Frederick

Synodic rotation periods and amplitudes at their year 2025 oppositions are found for 57 Mnemosyne 25.308 ± 0.001 h, 0.04 ± 0.01 mag; 818 Kapteynia 17.462 ± 0.001 h, 0.11 ± 0.01 mag with an irregular monomodal lightcurve; 896 Sphinx 21.072 ± 0.001 h, 0.24 ± 0.02 mag with an irregular lightcurve; 992 Swasey 13.295 ± 0.001 h, 0.15 ± 0.02 mag with an irregular lightcurve.

Synodic Rotation Periods and Lightcurve Amplitudes for 12 Minor Planets from Gora Collaboration
Pages 306-309
Colazo, Milagros; Amelotti, Víctor; Navas, Giuliat; Orbanic, Zlatko; Tàrtalo, Gerard; Melia, Raúl; Santos, Francisco; Suárez, Néstor; Montecchiari, Nicola; García, Alberto; Scotta, Damián; Álvarez, José; Monteleone, Bruno; Anzola, Marcos; Colazo, Carlos

Synodic rotation periods and amplitudes are reported for: 637 Chrysothemis, 1079 Mimosa, 1155 Aenna, 1287 Lorcia, 1409 Isko, 1841 Masaryk, 3731 Hancock, 3857 Cellino, 4350 Shibecha, 5438 Lorre, 5802 Casteldelpiano, 19793 2000 RX42. Colazo, Carlos

Synodic Rotation Periods and Lightcurve Amplitudes for Eleven Main Belt Asteroids
Pages 310-313
Colazo, Milagros; Monteleone, Bruno; Orbanic, Zlatko; Tàrtalo, Gerard; Amelotti, Víctor; Melia, Raúl; Morales, Mario; Suárez, Néstor; Montecchiari, Nicola; Santos, Francisco; Anzola, Marcos; García, Alberto; Navas, Giuliat; Álvarez, José Colazo, Carlos

Synodic rotation periods and amplitudes are reported for: 526 Jena, 1033 Simona, 1341 Edmee, 1408 Trusanda, 1926 Demiddelaer, 2350 von Lude, 2843 Yeti, 3041 Webb, 3134 Kostinsky, 3774 Megumi, 4725 Milone.; Álvarez, José Colazo, Carlos

Photometric Observations and Lightcurve Analysys of Four Main-Belt Asteroids
Pages 314-316
Bucek, Marek; Brincat, Stephen M.; Rivard, Normand

We report results of photometric observations and lightcurve analysis of four main-belt asteroids: 2383 Bradley, 6512 de Bergh, 7309 Shinkawakami and 31828 Martincordiner. The asteroids were observed by a network of observatories located in Slovakia, Malta and Canada.

Photometric Observations and Lightcurve Analysis of Five Asteroids from an International Network Of Observatoriesnada.
Pages 317-320
Bucek Marek; Brincat, Stephen M.; Galdies, Charles; Rivard, Normand; Zammit, Vincentbservatoriesnada.

Results of extensive observation campaigns of five asteroids from a network of observatories situated in Slovakia, Malta and Canada are presented in this paper. We have conducted more than 80 individual sessions during these campaigns targeting asteroids 3595 Gallagher, 5704 Schumacher, 7068 Minowa, 10143 Kamogawa and (12528) 1998 KL31.oriesnada.

Collaborative Asteroid Photometry from UAI: 2025 April-June
Pages 320-323
Franco, Lorenzo; Marchini, Alessandro; Papini, Riccardo; Ruocco, Nello; Scarfi, Giulio; Buzzi, Luca; Iozzi, Marco; Lombardo, Matteo; Lombardo, Niccolò; Galli, Gianni

Photometric observations of five asteroids were made in order to acquire lightcurves for shape/spin axis modeling. Lightcurves were acquired for 992 Swasey, 1155 Aenna, 1326 Losaka, (9058) 1992 JB, and (424482) 2008 DG5.

V-R Color Indices for Nine Main-Belt Asteroids
Pages 323-325
Iozzi, Marco

We present V-R color indices for a sample of nine mainbelt asteroids. Observations were conducted from the H.O.B. Astronomical Observatory (MPC code L63) between June 28 and July 04, 2025. 2008 DG5.

A Study and Review of the Lightcurves and Rotation Periods of 10 Asteroids
Pages 326-329
Farfán, Rafael González; de la Cuesta, Faustino García; Lorenz, Esteban Reina; Albá, Carlos Botana; De Elías Cantalapiedra, Javier; Fernández, Javier Ruiz; Martínez, Fernando Limón; Bárcena, Juan Collada; Ruiz, Javier Polancos

This paper presents the results of a photometric study of ten asteroids and their rotation periods. The 10 asteroids studied were: 498 Tokio (41.843 h), 502 Sigune (10.929 h), 790 Pretoria (10.385 h), 1055 Tynka (5.951 h), 1254 Erfordia (12.286 h), 1263 Varsavia (7.166 h), 1318 Nerina (2.527 h), 1342 Brabantia (4.172 h), 3774 Megumi (3.573 h), and 5632 Ingelehmann (3.780 h).

Lightcurves and Synodic Rotational Periods for 16 Asteroids: 2025 February - June.
Pages 330-334
Benishek, Vladimir

Lightcurves and synodic rotation periods for 16 asteroids determined from photometric observations conducted at the Sopot Astronomical Observatory in the time span 2025 February - June are presented.

Lightcurve and Rotation Period Analysis of (9058) 1992 JB and (424482) 2008 DG5
Pages 334-336
Hawley, Wayne; Wiggins, Patrick; Armstrong, James D.; Gonçalves, Rui; DeGroff, Kent; Scott, Brian; Odeh, Mohammad Shawkat; Haymes, Tim; Gout, Jean-Francois; Privett, Grant; Genebriera, Joan

Photometric observations of asteroid (9058) 1992 JB were obtained during 2025 April and May while observations of (424482) 2008 DG5 were obtained during 2025 May and June. For (9058) 1992 JB, we found P = 10.52 ± 0.01 h, A = 0.32 ± 0.03 mag. For (424482) 2008 DG5, the results were P = 11.256 ± 0.006 h, A = 0.25 ± 0.03 magnitudes.iera, Joan

Lightcurve Analysis for Three Main-Belt, Two Mars-Crossing and Two Near-Earth Asteroids
Pages 337-339
Fornas, Gonzalo; Fornas, Alvaro; Carreño, Alfonso; Huet, Fernando; Rathmann. Enrique; Mas, Vicente

Photometric observations are reported for three mainbelt, two Mars-crossing, and two near-Earth asteroids. We derived the following rotational synodic periods: 5066 Garradd, 3.7791 ± 0.0024 h; 5972 Harryatkinson, 3.3859 ± 0.0018; 18404 Kenichi, 3.44084 ± 0.00008 h; (21183) 1994 EO2, 8.73188 ± 0.00024 h; (27174) 1999 BB2, 4.88420 ± 0.00029 h; (137126) 1999 CF9, 6.7056 ± 0.0008 h; (137170) 1999 HF1, binary, P1 = 2.31921 ± 0.00002 h, P2 = 14.2087 ± 0.0022 h.

Lightcurves, Rotational Periods and Spectral Classification of Two Near-Earth Asteroids Observed With Trappist: 2020 WG and (458122) 2010 EE45
Pages 340-341
Apostolova, Brankica; Miftah. Mohamed Amine; Jehin, , Emmanuël; Petrescu, Elisabeta; Ferrais, Marin; Jabiri, Abdelhadi; Benkhaldoun, Zouhair

We observed two near-Earth asteroids (NEAs) with TRAPPIST-North and TRAPPIST-South from October 2024 to January 2025. We obtained their lightcurves and estimated their synodic rotational periods and amplitudes, which have not been previously reported – 2020 WG: (0.5927 ± 0.0003 h) and (0.36 ± 0.02 mag); (458122) 2010 EW45: (2.4880 ± 0.0008 h) and (0.11 ± 0.01 mag). We also performed calculations of their color indices B-V, V-R and V-I, and according to them, classified the asteroids into spectral types – 2020 WG: S-type, 2010 EW45: Q-type. The acquired data have been submitted to the ALCDEF database.

Lightcurve Analysis for Nine Near-Earth Asteroids Observed Between March - June 2025
Pages 342-349
Birtwhistle, Peter

Lightcurves and amplitudes for nine near-Earth asteroids observed from Great Shefford Observatory during close approaches between March and June 2025 are reported. All are small objects and all but one have rotation periods shorter than the spin barrier at ~2.2 h, with 2025 HP4 having the unusually short period of 10.6 s. Two are identified as having tumbling rotation with two others being possible tumblers.

Lightcurve of Comet C/2024 M1 (ATLAS)
Pages 349-350
Bruno, Sonka Adrian; Nedelcu, Alin; Birlan, Mirel; Trelia, Madalina

We present the lightcurve of comet C/2024 M1 (ATLAS) from two observatories, determined after noticing that it presents no cometary activity.

On the GAIA DR3 Reflectance Spectra
Pages 351-354
Franco, Lorenzo

For the community of observers in the Minor Planets Section and beyond, we present a study on the reflectance spectra contained in the ESA Gaia DR3 database. This data set has great potential for the amateur astronomer community, especially for the classification of asteroids that do not have any previous classifications. A taxonomic classification has been carried out for 14954 asteroids. Of these, there are 1214 asteroids in common with the SMASSII catalogue, of which for 914 the taxonomic classification agrees (78%). The quality of the Gaia spectra sometimes is not very high, so it is advisable to proceed with caution, using a visual inspection in the most ambiguous cases.

Lightcurve Photometry Opportunities: 2025 October - 2026 January
Pages 355-359
Warner, Brian D.; Harris, Alan W.; Durech, Josef; Benner, Lance A.M.

We present lists of asteroid photometry opportunities. As part of this, we are making some changes from the template used the past decade or more that affect the presentation and criteria used to build each list. There is still an emphasis on asteroids reaching a favorable apparition and have no or a poorly-defined lightcurve. However, that list and the one for modeling targets was biased towards brighter asteroids. We try to limit that bias by restricting the favorable apparitions and modeling lists to objects 15.0 V 16.0 at brightest. Low phase angle observations remain important but, increasingly so, only if placed on a standard photometric system, and better yet, if they are accompanied with observations out to phase angles of 20-30 degrees, something that is more easily achieved with near-Earth asteroids. To be more inclusive of the near-Earth asteroid population, the "NEA Opportunities" list replaces and expands on the long-standing "Radar-Optical Opportunities" section. The MinorPlanet.info web site can be used for those wanting a list of brighter, or fainter, targets.

Index to Volume 52
Pages 359-362
Sada, Pedro A. Valdés

An index to the publications appearing in volume 52 (2025) of the Minor Planet Bulletin

In This Issue
Pages 363
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©2017-2022 Brian D. Warner. Funding to support this web site was provided by NASA grant NSSC 80NSSC18K0851 prior to 2021 April.