November 22, 2024

Palomar Survey Instrument Shows Astronomical Impact of SpaceX Starlink Satellites

The streak from a Starlink satellite appears in this image of the Andromeda galaxy, taken by the Zwicky Transient Facility, or ZTF, throughout golden on May 19, 2021. The image reveals only one-sixteenth of ZTFs complete field of vision. Credit: Caltech Optical Observatories/IPAC
A study of archival images from Zwicky Transient Facility reveals a boost in satellite streaks.
Given that 2019, SpaceX has actually been introducing an increasing number of web satellites into orbit around Earth. The satellite constellation, called Starlink, now consists of nearly 1,800 members orbiting at elevations of about 550 kilometers. Astronomers have revealed concerns that these objects, which can look like streaks in telescope images, could hinder their scientific observations.
To measure these results, a group of researchers studied archival images caught by the National Science Foundation (NSF)- funded Zwicky Transient Facility (ZTF), an instrument that runs from Caltechs Palomar Observatory near San Diego. ZTF scans the whole night sky every two days, cataloging cosmic items that explode, blink, or otherwise change over time. This consists of everything from supernovae to near-Earth asteroids. The Zwicky group members state they decided to specifically study the impacts of Starlink satellites because they presently represent the largest low-Earth orbit, or LEO, constellation, and they have well-characterized orbits.

The findings, reported in the January 17, 2022, concern of The Astrophysical Journal Letters, show 5,301 satellite streaks appear in archival images taken between November 2019 and September 2021. The streaks are most apparent in so-called twilight observations, those taken at dawn or sunset, which are essential for finding near-Earth asteroids that appear near the sun in the sky. ZTF has discovered a number of asteroids of this nature, consisting of 2020 AV2, the very first asteroid found with an orbit that fits entirely within the orbit of Venus.
” In 2019, 0.5 percent of twilight images were affected, and now nearly 20 percent are impacted,” states Przemek Mróz, study lead author and a former Caltech postdoctoral scholar who is now at the University of Warsaw in Poland.
In the future, the researchers anticipate that almost all of the ZTF images taken during twilight will consist of a minimum of one streak, specifically after the Starlink constellation reaches 10,000 satellites, an objective SpaceX wishes to reach by 2027.
” We do not anticipate Starlink satellites to affect non-twilight images, however if the satellite constellation of other companies enters into higher orbits, this might cause issues for non-twilight observations,” Mróz says.
Regardless of the increase in image streaks, the new report keeps in mind that ZTF science operations have actually not been strongly impacted. Research study co-author Tom Prince, the Ira S. Bowen Professor of Physics, Emeritus, at Caltech, says the paper shows a single streak impacts less than one-tenth of a percent of the pixels in a ZTF image.
” There is a little opportunity that we would miss another event or an asteroid concealed behind a satellite streak, but compared to the effect of weather, such as a cloudy sky, these are rather little impacts for ZTF.”
Prince says that software can be developed to help reduce prospective problems; for example, software application might predict the areas of the Starlink satellites and thus assist astronomers avoid arranging an observation when one might be in the field of view. Software application can also evaluate whether a passing satellite may have affected a huge observation, which would allow astronomers to mask or otherwise lower the unfavorable results of the streaks.
The brand-new research study likewise took a look at the efficiency of visors on the Starlink satellites, which SpaceX included starting in 2020 to obstruct sunshine from reaching the spacecraft. According to the ZTF observations, the visors decrease the satellite brightness by a factor of about 5. That dims the satellites to an apparent brightness level of 6.8 magnitude (the brightest stars are first magnitude, and the faintest stars we can see with our eyes have to do with 6th magnitude).
This is still not dim enough to fulfill requirements described by the Satellite Constellations 1 (SATCON1) workshop in 2020, a gathering sponsored by the NOIRLab (National Optical-Infrared Astronomy Research Laboratory) and the AAS (American Astronomical Society) to unite astronomers, policymakers, and other specialists to talk about the impact of large satellite constellations on astronomy and society. The group called for all LEO satellites to be at seventh magnitude or fainter.
The study authors likewise note their research study is particular to ZTF. Like ZTF, the upcoming Vera C. Rubin Observatory, under building and construction in Chile, will likewise survey the sky nightly, however due to its more sensitive imager, astronomers predict that it might be more adversely affected by satellite streaks than ZTF.
Recommendation: “Impact of the SpaceX Starlink Satellites on the Zwicky Transient Facility Survey Observations” by Przemek Mróz, Angel Otarola, Thomas A. Prince, Richard Dekany, Dmitry A. Duev, Matthew J. Graham3, Steven L. Groom, Frank J. Masci and Michael S. Medford, 14 January 2022, The Astrophysical Journal Letters.DOI: 10.3847/ 2041-8213/ ac470a.
Other authors of the study consist of Richard Dekany (BS 89), Matthew Graham, Steven Groom, and Frank Masci of Caltech; Dmitry Duev, a former Caltech postdoc now at Weights & & Biases Inc.; Angel Otarola of the European Southern Observatory; and Michael S. Medford of UC Berkeley and Lawrence Berkeley National Laboratory.
ZTF data are processed and archived by Caltechs IPAC astronomy. NASA supports ZTFs search for near-Earth objects through the Near-Earth Object Observations program.

The findings, reported in the January 17, 2022, concern of The Astrophysical Journal Letters, show 5,301 satellite streaks appear in archival images taken in between November 2019 and September 2021. The new research study also looked at the effectiveness of visors on the Starlink satellites, which SpaceX added beginning in 2020 to block sunshine from reaching the spacecraft. According to the ZTF observations, the visors minimize the satellite brightness by a factor of about 5.

The streak from a Starlink satellite appears in this image of the Andromeda galaxy, taken by the Zwicky Transient Facility, or ZTF, throughout twilight on May 19, 2021. The Zwicky group members state they decided to specifically study the impacts of Starlink satellites since they currently represent the largest low-Earth orbit, or LEO, constellation, and they have well-characterized orbits.