Fresh, new sights animate the night as Betelgeuse continues to fade.
Betelgeuse (lower left) has cornered our attention this winter season. Bob King
The sky provides. This winter,
the fading of Betelgeuse
caught us all by surprise. Now, as January wraps up, we can add a new
comet discovery and a supernova bright enough to see in a 6-inch
telescope to an ever-growing list of seasonal sky wonders.
As astronomers turned their spectrographs toward Betelgeuse,
skywatchers from beginners to seasoned amateurs thrilled to see the red
supergiant fade before their eyes. With a little help from Aldebaran and
Bellatrix, which served as comparison stars, Betelgeuse made hundreds
if not thousands of new variable star observers.
I spoke with Elizabeth O. Waagen, senior technical assistant at the American Association of Variable Star Observers
(AAVSO), and while she didn't have an exact number at her fingertips,
she confirmed that Betelgeuse inspired new observers to contribute their
magnitude estimates.
This
light curve from the AAVSO website plots V-band (similar to visual
magnitude) CCD magnitudes of Betelgeuse between December 15, 2019, and
January 29, 2020. Each green square is an observation. Notice the slow
but steady fading of the star with a possible beginning of an uptick on
January 29th. Used by permission of the AAVSOWhile there's always scatter in making magnitude estimates I was
surprised how well novices did. From posts here and on Facebook most
agreed that by late January Betelgeuse equaled Bellatrix, which shines
at magnitude 1.6. That jibes with the most recent to-date Johnson V-band
CCD observation of magnitude 1.64 made by AAVSO observer Tom Polakis on
January 28.25 UT. For my part, I noted the star at magnitude 1.7 on
January 27.1 UT, a hair fainter than Bellatrix.
In the most recent (January 29th) Astronomer's Telegram (#13410)
concerning the star, astronomer Edward Guinan of Villanova University
writes that during his 25 years of photometry, "Betelgeuse is currently
the coolest and least luminous yet observed. Since September 2019, the
star's temperature has decreased by ~100K while its luminosity has
diminished by nearly 25%." The numbers imply an increase in the star's
radius of ~9%. (UPDATE Feb. 5: According the latest ATEL #13439,
the radius increase estimate is in error. Instead, Betelgeuse appears
to have shrunk by ~9 percent since September 2019. I estimated its
magnitude at 1.7 on Feb. 4.1 UT.)
The
European Space Agency's Herschel satellite captured this infrared view
of Betelgeuse. A bow shock surrounds the supergiant star as it hurtles
through space. ESA / Herschel / PACS / MESS
Others have suggested that the extraordinary dimming may be due in
par to expelled gas and dust clouds that partially obscure the star.
Betelgeuse is highly unstable, routinely unleashing powerful stellar
winds that collide and compress interstellar gas into a bow shock in the
direction of the star's motion. If the supergiant's ~420-day
variability period (UPDATEFeb. 5: now
refined to 430 days) is an unusually deep one this time around then
Guinan predicts the dimming trend will bottom out sometime now through
early February (UPDATEFeb. 5: Minimum expected around Feb 21).
What's next? You tell me! Keep an eye on what used to be Orion's
second brightest star and we'll soon find out. To see what Betelgeuse is
up to anytime visit the AAVSO website. In the Pick a Star box, type Betelgeuse then either select Check Recent Observations or Plot a Light Curve. You can input your own parameters by selecting Plot Another Curve
in the top left-hand corner. Int he dialog boxes, you can include all
observations in every color band or choose specific types such as
visual, red, or V-band, for example. You can also toggle between Julian
and calendar dates, and under Preferences you can set your magnitude scale.
Although
Virgo is replete with galaxies, NGC 4636 will only take a little effort
to find. It's located 5° NNE of Gamma (γ) Virginis. Stellarium
While we're on the topic of stars that might explode as supernovae
one day, one of Japan's most prolific supernova hunters, Koichi Itagaki,
nabbed a 15th-magnitude supernova on January 12th in the 10th-magnitude
elliptical galaxy NGC 4636.
The following night it shot up to 13th magnitude and currently shines
around magnitude 12.1, bright enough to see in a 6-inch telescope.
Dubbed 2020ue,
it's located 5° north-northeast of the pretty double star Gamma (γ)
Virginis in Virgo. The galaxy climbs to 20° by midnight and remains
well-placed through dawn.
Located
well outside NGC 4636's bright nuclear region — 45.6″ west and 101.8″
south of the nucleus — supernova 2020ue is an easy catch. Magnitudes of
foreground stars are shown. North is up. Rolando Ligustri
Unlike Betelgeuse, which will potentially become a Type II supernova, 2020ue is a Type Ia
event involving the wholesale destruction of a white dwarf star in
close orbit about a (typically) main-sequence star. After millennia of
siphoning material from the companion to its surface, the dwarf puts on
enough weight to exceed the Chandrasekhar Limit
of 1.4 solar masses and undergoes uncontrolled gravitational collapse.
Runaway fusion from the crushing heat and pressure races through the
star, destroying it in a titanic blast visible across millions of
light-years.
I took a look at this silent scene of destruction on January 21.4 UT
and easily spotted the supernova at 64× at a comfortable distance from
the galaxy's nucleus in my 15-inch reflector. It's currently about
magnitude 12.1 and should remain easily accessible in a dark, moonless
sky until the waxing gibbous Moon returns on February 7th.
What
a spectacle! Comet PanSTARRS passes through the outskirts of the
Perseus Double Cluster on January 27th and remains near the starry duo all week. Michael Jäger
Comet PanSTARRS (C/2017 T2)
at magnitude 9.5 is currently the brightest comet of the night as it
glides past the Perseus Double Cluster this week. Everything else is
faint including a new magnitude-12.9 object discovered by Japanese
amateur astronomer Masayuki Iwamoto. He used a 400mm f/4 lens and Canon
EOS 6D camera to capture the critter on January 8th. Normally, I
wouldn't include a comet this faint, but because an amateur found it and
Comet Iwamoto (C/2020 A2) is brand new, an exception seemed warranted.
Comet Iwamoto (C/2020 A2) displays a colorful, blue-green coma on January 26, 2020. Iwamoto is moving rapidly to the northeast. Rolando Ligustri
I set aside an hour before dawn on January 20th to track down the new
object in Hercules. Despite glare from a pesky 10th-magnitude star I
spotted Iwamoto with my 15-inch Dob using magnifications of 142× and
245×.
The comet appeared small, diffuse, and moderately condensed with a
coma diameter of 1 arcminute. Because of its rapid northeastward
movement I easily detected motion over the 45 minutes of observation. (UPDATE Feb. 5:
The comet is brighter than the ephemeris indicates. I re-observed it on
Feb. 5.48 UT at magnitude 10.5 with a diffuse 4′ coma. A Swan filter
will enhance the view, and expand the coma's apparent size.)
C/2020 A2 is Iwamoto's fourth comet discovery.
Perihelion occurred on January 8th with closest approach to the Earth
on February 22nd at 0.92 a.u. The comet will brighten slightly in the
coming weeks, perhaps reaching magnitude 12.5 by Valentine's Day, before
fading. Watch for it to become circumpolar for mid-latitude skywatchers
around the middle of February. What other surprises await by that date I
wonder?
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