The big annual meeting of the AAS is going on as we speak. Because this is the general meeting, it covers too much, compared to the AAS-DPS (Division for Planetary Science) meeting every Autumn. Still, there is some planetary stuff (and not exoplanets) I’ll mention:
https://submissions.mirasmart.com/AAS245/Itinerary/EventsAAG.aspx
Monday, January 13, 2025
103 – The Solar System
Tiselska, A. Using Machine Learning Techniques to Identify Potentially Hazardous Asteroids: 103.03
In-situ Formation of Satellites Around Mars: 103.06
Nester, T. et al. Molecular Abundances in Space Objects: 103.08
Modeling Impact Events of IPs on Earth: 103.11
Joshi, L. et al. Spectral Analysis of Mars Trojans: Is there a Martian Link?: 103.12
Tuson, A. et al. tess-asteroids: a Python package for asteroid photometry with TESS: 103.15
Detecting Activity an Rotational Variation o Centaurs fro Zwicky Transient Facility Archival Observations: 103.18
Hayes-Gehrke, M. et al. Student Observations of 617 Patroclus in Preparation for Lucy Fly-By: 103.19
Giovacchini, M. et al. Near Earth Asteroid Phase Angle Research at Yerkes Observatory: 103.24
Martínez Serrano, l. Jarmak, S. Application of De-Wiggling Techniques to Analyze Hypothetical Surface Variations in JWST (16) Psyche Data: 103.25
Bora, C. Temporal Trends in Asteroid Behavior: A Machine Learning and N-Body Integration Approach: 103.27
Li, J. et al. In Search of the Potentially Hazardous Asteroids in the Taurid Resonant Swarm: 103.28
131 – SPHEREx: the Upcoming All-sky Infrared Spectroscopic Survey
SPHEREx: An All-sky Infrared Spectral Survey Satellite: 131.01
SPHEREx instrument measured performance: 131.02
SPHEREx science data processing and archive products: 131.06
Mon., 11:15 AM The Zwicky Transient Facility: Planning for LSST Year 1
144 – Space Missions
Gulick, H. et al. Advantages of a Space-Based, All-sky Survey for Time-Domain Astrophysics: 144.04
169 – Solar and Solar System Topics
Interpretation of Volatile Abundances in the Solar System Through Laboratory Investigations of Two Mechanisms: Entrapment of Volatiles in Ice Analogs and Isotopic Ice Exchange Chemistry: 169.06D
155 – Plenary Lecture: Punching Back Asteroids: The Deflection of Dimorphos by the DART Mission, Jason Kalirai
159 – Tapestry of surveys and techniques in big data astronomy
Data Archive for the GUSTO Mission: 159.11
Tuesday, January 14, 2025
Project Infrastructure Teams for the Roman Space Telescope
Kasliwal, M. RAPID: Roman Alerts Promptly from Image Differencing
201 – Instrumentation: Space Missions
PRIMA’s Kinetic Inductance Detectors: Realizing the Promise of the Far-Infrared: 201.08
REX, the Reionization Explorer: 201.09
208 – Developements in New and Existing Observing Facilities
The Thirty Meter Telescope 2024 Detailed Science Case – The Update Process and Science Highlights: 208.03
The Astronomer’s Proposal Tool for the Roman Space Telescope: 208.04
Observing Modes at the LBT Observatory: 208.05
A tutorial set to prepare for science with the Vera C. Rubin Observatory: 208.06
209 – Space-Based Far-Infrared Science for the 2030s
PRIMA: PRIMAger, a Hyperspectral and Polarimetric Instrument: 209.05
The Far-Infrared Enhanced Survey Spectrometer (FIRESS) for PRIMA: 209.09
The Science and Concept of the PRIMA Far-Infrared NASA Astrophysics Probe: 209.16
PRIMA: Guest Observer/Guest Investigator Science: 209.19
Moullet, A. et al. PRIMA: far-IR observations for Solar System Science: 209.25
216 – Enabling Space-Based Far-Infrared Science in the 2030s with the PRobe far-Infrared Mission for Astrophysics (PRIMA)
229 – NSF Town Hall
230 – Rubin Observatory Town Hall
231 – STScI Town Hall
Dark Energy Survey Results and Methods with Applications to Other Surveys
NASA’s Infrared Science and Technology Interest Group
241 – The Euclid Mission: First Results and Opportunities for Archival Research
Euclid Mission: Overview and Status: 241.01
Euclid Early Release Observations: 241.03
Euclid Ground Ground Segment and Data Products: 241.04
The Euclid Archive at IRSA and Opportunities for Archival Research: 241.05
243 – Surveys, Analysis, and Results IV
Photometric Choices for the Rubin Observatory: 243.06
248 – Annie Jump Cannon Prize Lecture: The Icy Origins of Planetary Systems, Jenny Bergner
Wednesday, January 15, 2025
302 – Instrumentation: Ground Based or Airborne
Dome-Seeing Along the Optical Path: Multi-beam Optical Seeing Sensor (MOSS): 302.12
Meghan Marangola, Elana Urbach, Christopher Stubbs
Diversification of Camera Technology for Wavefront Sensing Applications: 302.22
Adam Wise, Tom Seccull
Early Commissioning of the Vera C. Rubin Observatory: 302.25
307 – Dust
Investigating the Bulk Composition of Chondrule Precursors: 307.04
Maximizing Science with Roman-Rubin Data Synergies – Splinters
The Future of the Event Horizon Telescope – Exhibitor Theater
Science from the TESS Extended Mission – Splinters
Thursday, January 16, 2025
414 – The Solar System
The volatile content of giant Oort cloud comet C/2014 UN271 during its return to the planetary region: 414.01
Solar System Astronomy with the Unistellar Citizen Science Network: Cometary Activity, Asteroid Occultations, and Planetary Defense: 414.03
Finding Asteroids with Machine Learning in TESS Data: 414.04
Jorge Martinez-Palomera, Brian Powell
Small Asteroids Tell All: The Main Belt at 25th Magnitude: 414.05
An Efficient Shift-and-Stack Algorithm Applied to Detection Catalogs: 414.06D
Steven Stetzler
Excessively rapid centrifugal disruption of micron-sized dust in the solar system: 414.07
A Well-Characterized HelioLinC Survey for Centaurs in Pan-STARRS1: 414.08