CAISEY HARLINGTEN – ERIS GETS DWARFED (IS PLUTO BIGGER?)

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CAISEY HARLINGTEN – ERIS GETS DWARFED (IS PLUTO BIGGER?)


Something happened yesterday that could upend the bragging rights among the kingpins of trans-Neptunian space. If the early results hold up, this time it’s the dwarf planet Eris’s turn to be demoted, and Pluto might have just regained its status as the largest object in the Kuiper Belt.


The final prediction for an occultation by Eris yielded a track across northern Chile, home to many professional observatories. Bruno Sicardy


The scene for this drama is high in the Chilean Andes, where yesterday three teams of astronomers caught Eris in the act of passing directly in front of a 17th-magnitude star in north-central Cetus. Astronomers had known about this occultation well in advance, but the predicted path had shifted up and down along South America, leaving astronomers unsure who — if anyone — might see the event. Well, the news from Chile is that three observing teams, all using relatively modest telescopes, saw the star blink out.


According to Emmanuël Jehin (University of Liège, Belgium), who tracked the event with the 24-inch (60-cm) TRAPPIST telescope at La Silla Observatory, “I got seven frames where the light of the star is gone.” Since the images were taken 4½ seconds apart, Jehin says the occultation lasted about 27 seconds.


Images taken every 4½ seconds clearly show the brief disappearance of a star behind the dwarf planet Eris on November 6, 2010 (Universal Time). Emmanuël Jehin & others / TRAPPIST Observatory


Then word came that the occultation had been witnessed by two more telescopes some 460 miles (740 km) to the north. Sebastian Saravia, Alain Maury, and Caisey Harlingten saw the star disappear for 76 seconds through Harlingten’s 20-inch (50-cm) PlaneWave telescope at the San Pedro de Atacama Celestial Explorations Observatory. (Maury’s account of the event is here.) The outage was also recorded by a remotely operated 16-inch (40-cm) telescope in another dome at the SPACE site, under the control of Jose-Luis Ortiz (Institute of Astrophysics of Andalusia, Spain). You can view a clip of the IAA group’s occultation video here.


Any positive result would be cause enough to celebrate — never before has an occultation involved an object so far away. But successful observations from widely separated sites create two chords across Eris’s shadow that yields a unique solution for its diameter (assuming that the object is spherical).


T

his video from a 20-inch telescope at San Pedro de

Atacama Celestial Explorations Observatory shows how Eris briefly covered a 17th-magnitude star during an occultation on November 6, 2010. (Video frame rate is faster than real time.) Alain Maury / SPACE Observatory


That number, according to Bruno Sicardy (Paris Observatory), is hard to pin down exactly because timings derived from the three telescopes’ light curves have some uncertainty. Even so, Sicardy notes in an email, “Almost certainly Eris has a radius smaller than 1,170 km” — and that would make it ever-so-slightly smaller than Pluto, whose radius is thought to be 1,172 (±10) km. Don’t be surprised if the final value gets pushed another 50 or 60 km lower.


“This is huge,” notes occultation guru David Dunham. And you’ll get no disagreement from Mike Brown (Caltech), who headed the team that discovered Eris several years ago. “Most of the ways we have of measuring the sizes of objects in the outer solar system are fraught with difficulties,” Brown notes on his website. “But precisely timed occultations like these have the potential to provide incredibly precise answers.” We’ve gotten comfortable thinking that Eris is larger than Pluto, and why not? That’s what Wikipedia says, so it must be true! Seriously, images taken in December 2005 by Brown and others with the Hubble Space Telescope indicated a diameter of 1,500 miles (2,400 km), just 5% larger than Pluto’s.


A partial frame recorded during the occultation using a 16-inch (0.4m) telescope operated remotely by astronomers from Spain’s Institute of Astrophysics of Andalusia. Click on the image for a video of the event. N. Morales / Inst. of Astrophysics of Andalusia


But the true size remained uncertain because even Hubble’s supersharp gaze is only barely able to resolve Eris’s disk. (Remember: it’s some 9 billion miles from the Sun, three times as far away as Pluto. Observations made with the Spitzer Space Telescope yielded a diameter nearer 1,600 miles (2,600 km), and another group, using the IRAM radio telescope in Spain, upped the value to something closer to 1,900 miles (3,000 km). However, astronomers now realize that Eris’s spin axis is pointing toward the Sun, an aspect that would keep the sunlit hemisphere warmer than average and skew any infrared measurements toward higher values.


The relatively brief occultation (it had been predicted to last nearly 2 minutes), combined with negative observations from a pair of telescopes in Argentina, suggested right away that Eris wasn’t as large as thought. So the outcome from Chile is actually more in line with the Hubble result from 2005.


A sunset view of San Pedro de Atacama Celestial Explorations Observatory in Chile. The 20-inch (50-cm) telescope at left and the 16inch (40-cm) telescope two domes away successfully recorded Eris’s stellar occultation on November 6, 2010. Alain Maury


Eris’s mass, determined from the orbit of its moon Dysnomia, is about 125% that of Pluto — and that’s unchanged. So if the occultation results hold up, then the density of Eris must be higher, 2.5 g/cm3 or more, and its albedo (reflectivity) at least 90%. “A year ago I would have declared that result to be thoroughly crazy,” Brown commented today via email, “as it just seems unreasonable that Eris would have a density that high” — though he adds, “The albedo is already so ridiculously high that just a little more ridiculousness is OK.” But earlier this year Brown and others found that the largish Kuiper Belt denizen 50000 Quaoar is essentially a dense rock (averaging at least 3 g/cm3). “So I would say that densities, too, are up in the air,” Brown comments.


One more thing: occultations are very powerful probes of whether an object has an atmosphere, and for now all the team members I contacted are mum on whether Eris has one. The object’s high albedo, combined with its great distance, suggests that the surface must be absorbing too little sunlight to vaporize any ice present there. But astronomers were shocked to find (during an occultation in 1988) that Pluto has a thin atmosphere — so stay tuned! SOURCE CREDIT: https://caiseyharlingten.wordpress.com/2022/05/04/cai sey-harlingten-eris-gets-dwarfed-is-pluto-bigger/


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