Australian Sky & Telescope - April 2018

50 AUSTRALIAN SKY & TELESCOPE April 2018

A

lthough its position low in the

northwesternskyduringtwilight

makesC/2016 R2 (PANSTARRS)

averydifficultobjectforobservers

in middle southern latitudes, it may

stillbeaccessible(possiblyatabout

magnitude10–11)forthoselivingin

thefarnorthofAustralia,asitslowly

drifts through Andromeda.

C/2016R2turnedouttobefarmore

interesting than initially suspected.

As mentioned in the previous issue,

therewasatimeduringthespring

months of last year when it seemed

that early predictions of magnitudes

around 10 or thereabouts had been too

optimistic. Early brightening trends

appeared to slow or even stagnate. Yet,

toward the end of last year, the comet’s

activity once more picked up and by the

middle of December, visual brightness

estimatesmatching—orevenexceeding

—originalforecastswerebeing

reported. At least one observer spotted

the comet with binoculars at that time.

Nevertheless,itwasnotC/2016R2’s

increase in intrinsic brightness that

aroused the greatest excitement. As its

activity increased, the comet developed

awell-definedgastailthatdisplayed

remarkable activity, even though it was

still more than three astronomical units

fromtheSun!Imagesrevealedthis

featuretobecomplexandturbulent,

with disconnected sections and cloud-

likefeatures,givingtheappearance

of sporadic eruptions of gas from the

comet’s head.

Unusual beasts

This sort of behaviour reminded a

number of observers of the remarkable

performances of comets C/1908

R1 (Morehouse) and C/1961 R1

(Humason). These objects remain

the prime examples of rare carbon

monoxide comets, and it has now been

COMETS by David Seargent

Rare cometary beasts

C/2016 R2 defied forecasts to put on a remarkable display.

confirmed that R2 is another of these

unusual beasts.

Astronomers back in 1908 hardly

knew what had hit them as they saw

Morehouse. Even today, a sequence

of photos of this remarkable comet

stands as a classic account of extreme

tail turbulence. Tail disconnections,

cloud-like structures and all manner

of contortions made this an incredible

object, as did brightness outbursts and

changes in appearance so dramatic that

some observers remarked that it was

difficult to believe that it was really

the same object being observed on

consecutive nights.

As for Humason, when still out

near the orbit of Jupiter — more than

a year before perihelion — the coma

displayed a pinwheel-like appearance

and gaseous matter extended in all

directions. A tortuously contorted gas

tail at least 25 arcminutes long was a

remarkable feature, considering the

comet’s relatively large solar distance

at that time. Another odd piece of

behaviour was an outburst in brightness

amounting to around six magnitudes

in June 1964, about eighteen months

after perihelion. During this outburst,

Humason’s intrinsic brightness rivalled

the most luminous of comets such

as Hale-Bopp (in 1996) and Sarabat

(in 1729). In fact, even without the

brightness flare, Humason ranked

high on the list of intrinsically bright

comets. Despite a perihelion distance of

2.1 a.u., it still became bright enough to

be observable without optical aid.

As C/2016 R2 is another member of

this exclusive cometary clan, it is to be

hoped that it will be carefully followed

by observers for as long as possible.

■ DAVID SEARGENT is a long-time

comet observer, and author of Weird

Comets and Asteroids (Springer

2017) and Visually Observing Comets

(Astronomer’s Pocket Field Guide series,

Springer 2017).

S These three images, taken on January 8,

9 and 10, 2018, show the evolution of comet

C/2016 R2’s tail. Courtesy Gerald Rhemann.