Showing posts with label jupiter. Show all posts
Showing posts with label jupiter. Show all posts

Friday, March 17, 2017

Cosmic Vertigo

I'm pleased to announce the LAUNCH of my new space podcast, Cosmic Vertigo, made with co-host Alan Duffy and our amazing producer Joel Werner.


"Do you ever feel dizzy when you think about the incomprehensible scale of space? We call that feeling Cosmic Vertigo. Welcome to a head-spinning conversation between two friends who study the sky for a living."

Rest state: Alan and I cracking up (Photo: ABC/Radio National)
The three of us had a lot of fun creating this series, and I'm in awe of Joel's editing and production genius.
Dream Team: Alan Duffy, Joel Werner, and yours truly (Photo: ABC/Radio National)
The first two episodes are now LIVE with a new one released every two weeks.... so GO LISTEN and COMMENT and SUBSCRIBE wherever you get your podcasts!

Sunday, January 17, 2016

All 5 bright planets up in the morning sky!

all of you early risers may have noticed the lovely line of bright planets across the sky in the morning hours before sunrise lately.  definitely get out and have a look between jan 20th and feb 20th for a spectacular view, no matter where on earth you live!


you'll need to be able to see low on the horizon to spot mercury until early february or so, but you can do it if you have an unobstructed view!

this alignment of the planets has not occurred for over ten years. it's rare because all the planets have to be on the same side of the sun in their orbits.  while venus, mars, jupiter, and saturn have been in the morning sky all year, mercury is just getting ready to transition from being visible in our evening sky to being visible in the morning sky.  hopefully the visualisation below makes that clear.

via The Conversation
so... get out early and LOOK UP! 

Sunday, November 29, 2015

Cloudy with a chance of life: how to find alien life on distant exoplanets

This article was originally published in The Conversation on on 26th November 2015.


Cloudy with a chance of life: 

by Brad Carter, Amanda Bauer, & Jonti Horner

How do you go about hunting for life on another planet elsewhere in our galaxy? A useful starting point is to imagine looking from afar for signs of life on Earth. In a telescope like those we have on Earth, those aliens would likely just see the Earth and sun merged together into a single pale yellow dot.

If they were able to separate the Earth from the sun, they’d still only see a pale blue dot. There would be no way for them to image our planet’s surface and see life roving upon it.

However, those aliens could use spectroscopy, taking Earth’s light and breaking it into its component colours, to figure out what gases make up our atmosphere. Among these gases, they might hope to find a “biomarker”, something unusual and unexpected that could only be explained by the presence of life.

On Earth, the most obvious clue to the presence of life is the abundance of free oxygen in our atmosphere. Why oxygen? Because it is highly reactive and readily combines with other molecules on Earth’s surface and in our oceans. Without the constant resupply coming from life, the free oxygen in the atmosphere would largely disappear.

Biomarkers

But the story isn’t quite that simple. Life has existed on Earth for at least 3.5 billion years. For much of that time, however, oxygen levels were far lower than those seen today.

And oxygen alone is not enough to indicate life; there are many abiological processes that can contribute oxygen to a planet’s atmosphere.

The concentration of oxygen in the Earth’s atmosphere over the last billion years. As a reference, the dashed red line shows the present concentration of 21%.  Wikimedia

For example, ultraviolet light could produce abundant oxygen in the atmosphere of a world covered with water, even if it was devoid of life.

The upshot of this is that a single gas does not a biomarker make. Instead, we must instead look for evidence of a chemical imbalance in a planet’s atmosphere, something that can not be explained by anything other than the presence of life.

Here on Earth, we have one: our atmosphere is not just rich in oxygen, but also contains significant traces of methane. While abundant oxygen or methane could easily be explained on a planet without life, we also know that methane and oxygen react with each other strongly and rapidly.

When you put them together, that reaction will cleanse the atmosphere of whichever is least common. So to maintain the amount of methane in our oxygen-rich atmosphere, you need a huge source of methane, replenishing it against oxygen’s depleting influence. The most likely explanation is life.

Observing exoplanetary atmospheres

If we find an exoplanet sufficiently similar to our own, there are several ways in which we could study its atmosphere to search for biomarkers.

When a planet passes directly between us and its host star, a small fraction of the star’s light will pass through the planet’s atmosphere on its way to Earth. If we could zoom in far enough, we would actually see the planet’s atmosphere as a translucent ring surrounding the dark spot that marks the body of the planet.

How much starlight passes through that ring gives us an indication of the atmosphere’s density and composition. What we get is a “transmission spectrum”, which is an absorption spectrum of the planetary atmosphere, illuminated by the background light of the star.

Our technology has only now become capable of collecting and analysing these spectra for the first time. As a result, our interpretation remains strongly limited by our telescopic capabilities and our burgeoning understanding of planetary atmospheres.

Despite the current challenges, the technique continues to develop with great success. In the past few years, astronomers have discovered a wide variety of different chemical species in the atmospheres of some of the biggest and baddest of the known transiting exoplanets.

Many exoplanets may have no atmosphere at all. NASA/JPL-Caltech

Eclipses

Another approach involves observing a transiting planet and its star as they orbit one another. The goal here is to collect some observations when the planet is visible (but not in transit), and others when it is eclipsed by its star.

With some effort, astronomers can subtract one observation from the other, effectively cancelling the hugely dominant contribution of light from the star. Once that light is removed, what we have left is the day-side spectrum of the planet.

[Star + Planet] - [Star] = [Planet] NASA/JPL-Caltech/R. Hurt (SSC/Caltech)

The future

Astronomers are constantly developing new techniques to glean information about exoplanetary atmospheres. One that shows particular potential, especially for the search for planets like our own, is the use of polarised light.

Most of the light we receive from planets is reflected, originating with the host star. The process of reflection brings with it a subtle benefit - the reflected light gains a degree of polarisation. Different surfaces yield different levels of polarisation, and that polarisation might just hold the key to finding the first oceans beyond the solar system.

By rotating a polarising filter, we can block light of certain polarisation. This is how polarised sunglasses cut the glare from puddles and the ocean on a sunny day.  Wikimedia, CC BY-SA

These methods are still severely constrained by two factors: the relative faintness of the exoplanets, and their proximity to their host star. The ongoing story of exoplanetary science is therefore heavily focused on overcoming these observational challenges.

Further down the line, advances in technology and the next generation of telescopes may allow the light from an Earth-like planet to be seen directly. At that point, the task becomes (slightly) easier, in part because the planet can be observed for far longer, rather than just relying on eclipse/transit observations.

But even then, spectroscopy will be the way to go; the planets will still be just pale blue dots.

What we have seen so far

The exoplanets we have discovered to date are highly inhospitable to life as we know it. None of the planets studied so far would even be habitable to the most extreme of extremophiles.

The planets whose atmospheres we have studied are primarily “hot Jupiters”, giant planets orbiting perilously close to their host stars. As they skim their host’s surface, they whizz around with periods of just a few days, yielding transits and eclipses with every orbit.

Because of the vast amounts of energy they receive from their hosts, many of these “hot Jupiters” are enormous, inflated far beyond the scale of our solar system’s largest planet. That size, that heat and their speed, make them the easiest targets for our observations.

But as our technology has improved, it has also become possible to observe, through painstaking effort, some smaller planets, known as “super-Earths”.

Atmospheres of distant planets…

The hot Jupiter HD189733 has one of the best understood planetary atmospheres beyond the solar system.

Artists impression of the broiling blue marble, HD 189733 b. NASA, ESA, M. Kornmesser

Observations by the Hubble Space Telescope, in 2013, suggest a deep-blue world, with a thick atmosphere of silicate vapour. Other studies have shown its atmosphere to contain significant amounts of water vapour, and carbon dioxide.

Overall, however, it appears to be a hydrogen-rich gas giant like Jupiter, albeit super-heated, with cloud tops exceeding 1,000 degrees. Beneath the cloud turps lies a widespread dust layer, featuring silicate and metallic salt compounds.

The young giant planets in the HR8799 system appear to have hydrogen-rich but complex atmospheres, with compounds such as methane, carbon monoxide and water. They are likely larger, younger, and hotter versions of our own giant planets - with their own unique subtleties.

A direct image of the four planets known to orbit the star HR 8799. Ben Zuckerman

For the super-Earth GJ1214b the lesson is to be careful about making conclusions. Early suggestions that this might be a “water world” or have a cloudless hydrogen atmosphere have since been superseded by models featuring a haze of hydrocarbon compounds (like on Titan), or grains of potassium salt or zinc sulphide.

While the search for Earth-like planets continues using ground- and space-based telescopes, exoplanetary scientists are eagerly awaiting the launch of the James Webb Space Telescope JWST.

That immense telescope, scheduled for launch in around October 2018, could mark the true beginning of the exciting search for distant atmospheric biomarkers and exoplanetary life.

Monday, August 10, 2015

A 2dF night at the Anglo-Australian Telescope

A new video from AAO!

"A 2dF night at the AAT" assembles 14 time-lapse sequences taken at the 4-metre Anglo-Australian Telescope (AAT) located at Siding Spring Observatory NSW, Australia. This time-lapse video shows not only how the Two Degree Field (2dF) instrument works but also how the AAT and the telescope dome move in tandem, and the beauty of the Southern Sky in spring and summer.   
The video is 2min 50sec long and combines more than 4000 frames obtained using a CANON EOS 600D with a 10-20mm wide-angle lens. All sequences were taken during September and November 2011 by astronomer Dr Ángel R. López-Sánchez while he was working as the 2dF support astronomer for the AAT. The music is the song “Blue Raider” from Composer Cesc Villà's album “Epic Soul Factory”

Monday, June 22, 2015

planetary pair: venus & jupiter approaching!

venus is incredibly bright in the evening sky right now, and if you get out and LOOK UP, you won't miss the other bright object right by it - the planet jupiter!  they will keep getting closer and closer to each other over the next week and a half, culminating in what will appear to be a very bright double star system on july 1st.

it's quite a beautiful sight - make sure you enjoy it!  read more by tanya munro at the conversation.

here was the view from Brno, Czech Republic as photographed by Pavel Gabzdyl.

Photo by Pavel Gabzdyl

the view it turned around from the southern hemisphere!  this shot was taken by chris wyatt in australia.
Photo by chris wyatt

Friday, January 2, 2015

jupiter in a blue sky

have you ever spotted jupiter during the daylight hours?   i have not, but philip cruden has, and captured this great photo that even shows one of the galilean moons!


Tuesday, October 7, 2014

Australian Astronomical Observatory on YouTube!

i've been working to launch an AAO YouTube channel and guess what - it finally happened!  our first instalment is a new time-lapse video from AAO's Angel Lopez-Sanchez filmed at siding spring observatory.

please enjoy "the sky over siding spring observatory" and subscribe to the AAO's YouTube channel to keep up to date with the video releases i'll be posting once a month or so.  topics to be covered include: what is a spectrum, a short documentary about observing, how we re-aluminize the 4-meter telescope mirror, the construction of a new $18 million dollar instrument, and possibly a ukulele rock video ;)  stay tuned!


Thursday, April 10, 2014

on the beach at night

i attended a funeral today for a woman i did not know well, but who made a strong impression on me.  i work with her husband.   the times i saw them together i was struck by how much they adored each other.  in many photos i've seen of the two of them, she touched his face in a noticeable, natural way.  she will be missed.

in her honor i share this poem by walt whitman, on the beach at night.




On the beach, at night,
Stands a child with her father,
Watching the east, the autumn sky.

Up through the darkness,
While ravening clouds, the burial clouds, in black masses spreading,
Lower, sullen and fast, athwart and down the sky,
Amid a transparent clear belt of ether yet left in the east,
Ascends, large and calm, the lord-star Jupiter;
And nigh at hand, only a very little above,
Swim the delicate sisters, the Pleiades.

From the beach the chil, holding the hand of her father,
Those burial-clouds that lower, victorious, soon to devour all,
Watching, silently weeps.

Weep not, child,
Weep not, my darling,
With these kisses let me remove your tears;
The ravening clouds shall not long be victorious,
They shall not long possess the sky–shall devour the stars only in apparition,
Jupiter shall emerge–be patient–watch again another night the Pleiades shall emerge,
They are immortal–all those stars, both silvery and golden, shall shine out again,
The great stars and the little ones shall shine out again, they endure;
The vast immortal suns, and the long-enduring pensive moons, shall again shine.

Then, dearest child, mournest thou only for Jupiter?
Considerest thou alone the burial of the stars?

Something there is,
(With my lips soothing thee, adding, I whisper,
I give thee the first suggestion, the problem and indirection,)
Something there is more immortal even than the stars,
(Many the burials, many the days and nights, passing away,)
Something that shall endure longer even than lustrous Jupiter,
Longer than sun, or any revolving satellite,
Or the radiant sisters, the Pleiades.

Sunday, March 30, 2014

dear blog

dear blog,

i do think about you, sweet blog.   i think about things i'd like to write and post and share and comment on, and then i cant seem to find the time.   it's some combination of my new(ish) job, that has me doing outreachy type things for the AAO during my days, and rekindling a couple old hobbies, that has taken my attention away from you.

i'll try to do better.  i want to do better.   in fact, i want to move you to a different host and redesign your look a bit. i've talked about this before, but i promise i will dedicate time and take action to do this soon. maybe some kind soul will even help (actually, i would pay them for their skills and time).
 
i have some good photos and stories in the works to post to you soon, so please be patient.  until then, old friend, to tide you over here are a few photos from last week when i was working in new zealand, so that you dont forget me.

(upsidedown) orion and a bright jupiter (lower right)

In the Land of the Long White Cloud

the southern cross over the ocean

thanks for your continued dedication :)

astropixie

Tuesday, October 22, 2013

dirty space news: self-eclipsing

last month at the dotAstronomy 5 conference in boston, someone pointed out to me the existence of bewbsinspace.tumblr.com.  that's right.  how had i not heard of this before?!?

for this installment of dirty space news, we explore one of the elusive female components of the universe.  do you see it?

finally - some female DSN!  (Credit: Scotty Degenhardt)
this graph was created by amateur astronomer scotty degenhardt and shows how light from jupiter's moon, Io, changes over time.  Io's orbital path around jupiter holds a puffed ring of dusty material. this graph shows Io "self-eclipsing," which happens when its atmosphere blocks light scattered from its own torus, producing the attractive curve shown above.

Thursday, August 1, 2013

jupiter layer cake

i'm slightly experimental with my baking and cooking, but this jupiter structural layer cake requires some serious skills and experience.   the layers are not to scale, but wow wow wow - look at the icing and the round layers inside.   so impressive!!   

Jupiter Structural Layer Cake: outside (Credit: CakeCrumbs)

Jupiter Structural Layer Cake: inside (Credit: CakeCrumbs)

the main feature most people recognize on jupiter's surface is the giant red storm - a hurricane twice the size of the earth!

Jupiter Structural Layer Cake: outside (Credit: CakeCrumbs)

the oddity of jupiter is its interior.   the giant planet has no solid surface on which one could stand and watch the stars.  instead, about 90% of the planet's atoms are hydrogen.  in the outer regions, the hydrogen is a transparent gas, like on earth, but then conditions change as you go deeper inside.

the pressure starts to increase as you go farther down towards the center, and the increased pressure makes the gas more dense, until it becomes "liquid metallic hydrogen" - a state of hydrogen not produced naturally on earth.

there is probably a rocky core at the very center of jupiter, but actually, we really dont know.

Jupiter Structural Layer Cake: inside (Credit: CakeCrumbs)

we'll know more about the biggest planet in our solar system, jupiter, soon(ish), when the spacecraft called juno reaches its destination in 2+ years.  the SWRI mission webpage has a cool animation of how we think our solar system and jupiter formed.  stay tuned!

Thursday, June 13, 2013

planetary trio

an astronomy picture of the day that shows an amazing image of the recent planetary conjunction visible in the northern skies.

this compilation image was created by chris kotsiopoulos and shows (from left to right) the close-together planets of jupiter, venus, and mercury.   also shown is the stacked digital image is the star elnath.



Sunday, February 24, 2013

jupiter, moons, and comets

two comets visible from the southern hemisphere are caught in this lovely timelapse by alex cherney:

Comets Lemmon and PanSTARRS sweeping through the Southern Skies from Alex Cherney on Vimeo.


and a couple pictures of the recent conjunction of the moon and jupiter shot from around australia. 

from angel lopez-sanchez:


from david finlay:


Friday, February 22, 2013

Monday, August 13, 2012

the moon meets jupiter

this almost looks like it should be a painting out of a fairy tale book, but it's not!   this telescopic photo was taken by cristian fattinnanzi in italy on july 15th.  the shot captures earth's moon in crescent phase, with the dark part slightly illuminated by reflected earthshine, and jupiter peering behind with all of the galilean moons visible: callisto, ganymede, io, and europa, from left to right. 


Friday, May 18, 2012

Saturday, May 12, 2012

When I heard the learn'd astronomer

When I heard the learn'd astronomer






by Walt Whitman
















 
When I heard the learn'd astronomer, 
When the proofs, the figures, were ranged in columns before me, 
When I was shown the charts and diagrams, to add, divide, 
     and measure them, 
When I sitting heard the astronomer where he lectured with 
     much applause in the lecture-room, 
How soon unaccountable I became tired and sick, 
Till rising and gliding out I wander'd off by myself, 
In the mystical moist night-air, and from time to time, 
Look'd up in perfect silence at the stars.


A Zodiacal Skyscape: Jack Fusco
the photo above shows venus (the brightest), jupiter, the pleiades star cluster, and the glow of zodiacal light from february this year. 

Monday, March 26, 2012

jupiter, the moon, venus, and the dish

here's a lovely view just after tonight's sunset at the parkes radio dish. from left to right is jupiter, the moon, venus, and the dish.


i think the planets and the moon look like a little koala together ;)

Friday, March 16, 2012

from here to infinity

I'm out at siding spring observatory for the next week.


never underestimate the power of duct ("gaffer") tape!


a stunningly bright planetary pair slowly peaks out of the darkening sky, as pale blue fades through sunset colors to deep black.


venus and jupiter are on show for an hour, then i have to retreat inside to work.

when i emerge again outside on the catwalk surrounding the telescope dome, the deep black darkness shocks my eyes. the moon has not yet risen and the current solar system show-offs have already set.

orion sits upside down while the southern cross reaches around the milky way. our galaxy begins to shoot across the sky and the two magellanic clouds shyly tag along for the ride.

i find mars quite easily in the eastern skies and notice my surprise at just how obviously red its reflected sunlight glows!

as my eyes dark-adapt, fainter dots begin to speckle the sky. i start to lose the three stars of orion's belt amidst the incredible number of stars. so many stars!

and these are just the stars i can see with my eyes, our solar neighborhood, a tiny fraction of all the stars that make up our milky way galaxy.

and there are billions and billions of galaxies in the universe! so. much. space.

and then it's that moment again, BAM! a swell of intensity, overwhelmed and slightly dizzy, as i realize just how big the universe is.

wow.

and just as quickly, i'm back on earth, looking at the solid black silhouette of our home planet stretching softly out to the horizon, where it touches the star-filled sky.

i love those moments.



for more of what's happening overhead right now at siding spring, check out show me stars!

Wednesday, March 14, 2012

venus and jupiter set with the sun

i'm heading up to siding spring observatory tomorrow for a week of (hopefully) good galaxy gleaning!

make sure you get outside around sunset these days and look west to see an incredibly bright pair of planets: venus and jupiter. they are their closest in the sky tonight and will start separating again. the slightly brighter one is venus. enjoy!

Photo Credit: Shawn Malone