Look up! Your guide to some of the best meteor showers for 2020



A composite image of one night watching the Orionids meteor shower.
Flickr/Jeff Sullivan, CC BY-NC-ND

Jonti Horner, University of Southern Queensland and Tanya Hill, Museums Victoria

Where 2019 was a disappointing year for meteor showers, with two of the big three (the Quadrantids, Perseids and Geminids) lost mainly to moonlight, 2020 promises to be much better.

The year starts with a bang with the Quadrantids providing a treat for northern hemisphere viewers. The Perseids, in August, provide another highlight for those in the northern hemisphere, while the December Geminids round the year off for observers all around the world.




Read more:
Explainer: why meteors light up the night sky


But the big three aren’t the only meteor showers that will put on a show this year. So when should you look up to see the meteoric highlights of the coming year?

Here’s our pick of the showers to watch. We have the time each shower is forecast to peak, finder charts showing you where best to look, and the theoretical peak rates you could see under ideal observing conditions. This is a number known as the Zenithal Hourly Rate (ZHR).

Because the ZHR is the theoretical maximum rate you could see per hour, it is likely that the rates you observe will be lower.

For any meteor shower, if you want to give yourself the best chance to see a good display, it is worth trying to find a good dark site, as far from light polluted skies as possible. Once you’re outside give yourself plenty of time to adapt to the darkness, at least half an hour. Then just sit back, relax, and enjoy the show.

Showers that can only really be seen from either the northern or southern hemisphere are denoted by [N] or [S], whilst those that can be seen from both are marked by [N/S].

You can download a ICS file of this guide to add to your favourite calender.

Quadrantids [N]

Active: December 28 – January 12

Maximum: January 4, 8:20am UTC = 8:20am GMT = 3:20am EST = 12:20am PST

ZHR: 120 (variable, can reach ~200)

Parent: It’s complicated… (Comet 96P/Macholz and asteroid 2003 EH1)

The Quadrantids are the first of the big three meteor showers of the year – the three showers that give fabulous displays with ZHRs in excess of 100, year in, year out.

For most of the fortnight over which the Quadrantids are active, rates are low – just a few meteors per hour. In the hours approaching their peak, rates climb rapidly, before falling away just as rapidly once the peak is past. In total, rates exceed a quarter of their maximum value for just eight hours, centred on the peak.

From Vancouver, as the Quadrantids reach their peak, the radiant is low to the horizon, but it moves higher in the east as dawn approaches [Vancouver midnight].
Museums Victoria/stellarium

The Quadrantid radiant is circumpolar (never sets) for locations north of 40 degrees north. As a result, the shower can be observed throughout the hours of darkness for most locations in Europe and many in North America.

The radiant lies in the constellation Boötes, the Herdsman, relatively near the tail of Ursa Major, the Plough or Great Bear.

The radiant rises highest in the sky in the early hours of the morning, so this is when the best rates can be seen. In 2020, the shower’s peak favours observers in the east of North America, though those in northern Europe should see a good display in the hours before dawn on the morning of January 4.

If skies are clear it is definitely worth wrapping up warm and heading out to observe the most elusive of the year’s big three.

Lyrids [N/S; N preferred]

Active: April 14 – 30

Maximum: Variable – between April 21, 10:40pm UTC and April 22, 9:40am UTC (April 22 9:40am UTC = 4:40am EST = 1:40am PST)

ZHR: 18 (variable, can reach ~90)

Parent: Comet C/1861 G1 Thatcher

The Lyrids are a shower with a long and storied history – with records reporting their activity tracing back for millennia. Researchers have even suggested the Lyrids may have been active on Earth for more than a million years.

In the distant past, there are reports the Lyrids produced some spectacular displays – meteor storms, with thousands of meteors visible per hour.

The modern Lyrids are usually more sedate, with peak rates rarely exceeding ~18 meteors per hour. But they do sometimes throw up the odd surprise. An outburst of the Lyrids in 1982 yielded rates of ~90 meteors per hour for a short period.

While no such outburst is forecast this year, the peak of the shower will occur just a day before a new Moon, so skies will be dark and viewing conditions ideal.

From the USA, the radiant is well placed from late evening through the morning hours [Chicago 11pm]
Museums Victoria/Stellarium

Although the Lyrids are best seen from the northern hemisphere, their radiant can reach a useful altitude for observers in the northern half of Australia. Keen observers might be tempted to head out in the early hours of the morning to watch.

Across Australia, the Lyrids are best seen in the hour before sunrise, when the radiant is at its highest [Brisbane, 5am].
Museums Victoria/Stellarium

The radiant rises during the night so the best rates are seen in the early hours of the morning, before dawn. From northern hemisphere sites, reasonable rates can be seen after about 10:30pm, local time -– but for those at southern hemisphere latitudes, the radiant fails to reach a reasonable altitude until well after midnight.

Lyrid meteors tend to be relatively fast and are often bright. Despite the relatively low rates (at least, compared to the big three) they are well worth a watch, especially as conditions this year will be as close to perfect as possible.

Eta Aquariids [S]

Active: April 19 – May 28

Maximum: May 5, 9pm UTC = May 6, 7am AEST (Qld/NSW/ACT/Vic/Tas) = May 6, 4am AWST (WA) = May 6, 6am JST

ZHR: 50+

Parent: Comet 1P/Halley

While not counted as one of the big three, in many ways the Eta Aquariids stand clear of the pack as the best of the rest.

Only really visible to observers in the tropics and the southern hemisphere, the Eta Aquariids are fragments of the most famous of comets –- Halley’s comet. They mark the first (and best) of two passages made by the Earth through the debris laid down by that comet over thousands of years –- with the other being the Orionids, in October.

Look to the east before sunrise and catch the Eta Aquariids along with Jupiter, Saturn, and Mars too [Melbourne 5am].
Museums Victoria/Stellarium

The radiant only rises a few hours before dawn, even at southern altitudes, and the further north you go, the closer to sunrise the radiant appears. This is what prevents northern hemisphere observers from taking advantage of the Eta Aquariids –- the Sun has risen by the time the radiant is high enough for the shower to put on a decent show.

The meteors are fast and often bright, and the brighter ones have a reputation for leaving behind noticeable smoky trains. The maximum of the shower is broad, with rates remaining above ~30 meteors per hour for the week around the date of the maximum.

It is well worth getting out to observe the Eta Aquariids at around the time their radiant rises. This gives the maximum amount of time to observe the shower before dawn, but in addition, those few meteors you observe when the radiant is sitting just above the horizon can be spectacular.

Known as Earthgrazers, such meteors enter the atmosphere at a very shallow angle, with the result that they can streak all the way across the sky, from horizon to horizon.

The Eta Aquariids reach their peak in 2020 a couple of days before the full Moon. That the radiant does not rise until a few hours before sunrise works to our advantage this year –- the shower’s radiant will rise at around the same time the Moon sets, so the shower can be observed in Moon-free skies, despite the proximity of the Full Moon.

Perseids [N]

Active: July 17 – August 24

Maximum: August 12, 1pm – 4pm UTC = 3am – 6am HST = 10pm – August 13, 1am JST + filament passage ~3 hours before the main peak

ZHR: 110

Parent: Comet 109P/Swift-Tuttle

For northern hemisphere observers, the Perseids are perhaps the famous and reliable shower of the year.

While the Geminids offer higher rates, the Perseids fall during the middle of the northern summer, when families are often holidaying and the weather is warm and pleasant. As a result, the Perseids are the most widely observed of all meteor showers, and never fail to put on a spectacular show.

The parent comet of the Perseid meteor shower, 109P/Swift-Tuttle, was last at perihelion (closest to the Sun) in 1991. As a result, during the 1990s, the Perseids offered enhanced rates –- often displaying multiple peaks through the two or three days around their traditional maximum.

Those individual peaks were the result of the Earth passing through individual trails of material, laid down at past perihelion passages of the comet, which have not yet had time to fully disperse into the background of the shower as a whole.

It is now three decades since the comet’s last perihelion passage, but astronomers predict the Earth could well pass through one of those debris trails this year, at around 10am UTC (midnight Hawaii time, 3am Vancouver time), three hours before the normal forecast maximum for the shower.

As a result, peak rates should last for longer, and potentially reach higher values than would normally be expected from a typical Perseid return.

The radiant rises in the mid-evening from northern latitudes, which means the shower can be observed from around 10pm or 11pm, local time. The later in the night you look, the higher the radiant will be, and so the more meteors will be visible.

This year it’s best to catch the Perseids early in the evening before the Moon rises [Greenwich 9pm].
Museums Victoria/Stellarium

Unfortunately, the peak of the Perseids in 2020 falls two days after the last quarter Moon, which means moonlight will begin to interfere with the display in the early hours of the morning. The best views of the shower will likely be seen between ~10pm or 11pm local time and ~2am the following morning.

If you can only observe in the hours before dawn, all is not lost. The Perseids are famed for producing plenty of bright meteors. They are worth observing even when the Moon is above the horizon, particularly on the nights around the forecast peak.

Orionids [N/S]

Active: October 2 – November 7

Maximum: October 21

ZHR: 20+

Parent: 1P/Halley

The Orionid meteor shower marks the second occasion the Earth encounters the stream of debris left behind by Halley’s comet each year.

In October, Earth passes farther from the centre of Halley’s debris stream than in May, with the result the observed rates for the Orionids are lower than for the Eta Aquariids. Despite this, the Orionids remain a treat for meteor enthusiasts in the northern autumn and southern spring.

The Orionids peak on October 21 but that maximum is often quite broad with activity hovering close to the peak rates for as much as a week around the maximum.

There is some evidence the peak rates vary over time, with a roughly 12 year periodicity, as a result of perturbations by the giant planet Jupiter (which orbits the Sun once every 12 years).

In the final years of the first decade of the 21st Century, the Orionids were markedly more active than expected, with maximum rates in the range 40-70. If the periodicity is real, then 12 years on from the peak of activity it is possible the Orionids will again put on a better than expected show.

So 2020 might well be an ideal year to look up and watch for fragments of Halley’s Comet vapourising high overhead.

Before dawn, Orion stands upright in the south as seen from the northern hemisphere [Vancouver 5am].
Museums Victoria/Stellarium

The radiant rises just before local midnight, meaning the meteors are best observed in the early hours of the morning. The radiant reaches its highest altitude in the hours before dawn. The Moon will not interfere this year, setting in the early evening, long before the radiant rises.

The view from the southern hemisphere finds Orion upside in the northern sky before sunrise.
Museums Victoria/Stellarium

Observers watching the Orionids are in for an extra treat. While the Orionids are active, so too are the Northern and Southern Taurid meteor showers. Where the Orionids are fast meteors, Taurids are slow, and often bright and spectacular.

Although the rates of both the Northern and Southern Taurids are lower than those of the Orionids (typically just ~5 per hour), their activity makes observations of the Orionids even more productive and exciting.

Geminids [N/S]

Active: December 4 – 17

Maximum: December 14, 12:50am UTC = 11:50am AEDT (NSW/ACT/Vic/Tas) = 8:50am AWST (WA) = 5:50pm EST (evening of December 13)

ZHR: 150

Parent: Asteroid 3200 Phaethon

The Geminids, which peak in mid-December, are truly a case of saving the best until last. The biggest of the year’s big three, the Geminids have, over the past few decades, been growing ever more active and spectacular, with recent years seeing rates in excess of 150 per hour.

For observers in northern Europe, the radiant is above the horizon relatively soon after sunset, meaning that the Geminids can readily be observed from around 8pm onwards.

The further south you travel, the later in the evening the radiant rises. For observers in Australia, the times at which the radiant appears above the horizon can be seen below.

The Geminid radiant rises at about the following times across Australia.
Author provided

As with all showers, the higher the radiant in the sky, the better the observed rates from the Geminids will be. The longer you watch, the better things will get.

Geminid meteors are of medium speed and often bright so they put on a spectacular show even in those years when moonlight interferes.

In 2020 the Moon will be new around this time so it will be possible to spend the entire night watching the Geminids without any interference from our nearest celestial neighbour.

The radiant reaches its highest at around 2am local time making the hours just after midnight the ideal time to catch the Geminids at their best.

The Geminids will put on a show during the early hours of the December 14 [Perth 2am; Sydney 3am]
Museums Victoria/Stellarium

The Geminid peak is relatively broad -– with rates remaining high for at least 24 hours around the forecast maximum. Observers across the globe will be treated to a spectacular display from the shower in 2020.

So find a dark site, wrap up warm, and treat yourself to a night spent watching the year’s most spectacular display of natural fireworks.The Conversation

Jonti Horner, Professor (Astrophysics), University of Southern Queensland and Tanya Hill, Honorary Fellow of the University of Melbourne and Senior Curator (Astronomy), Museums Victoria

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Look up! Your guide to some of the best meteor showers for 2019


File 20181217 185255 1g6x1vi.jpg?ixlib=rb 1.1
The 2018 Geminids meteor shower recorded over two very cold hours on the slope of Mount Lütispitz, Switzerland.
Flickr/Lukas Schlagenhauf, CC BY-ND

Jonti Horner, University of Southern Queensland and Tanya Hill, Museums Victoria

The year gets off to a bang with the Quadrantids, the first of the annual big three meteor showers. Active while the Moon is new, it gives northern hemisphere observers a show to enjoy during the cold nights of winter. Sadly, the shower is not visible from southern skies.

The other two members of the big three — the Perseids and Geminids — are not so fortunate this year, with moonlight set to interfere and reduce their spectacle.

So, with that in mind, where and when should you observe to make the best of 2019’s meteoric offerings? Here we present the likely highlights for this year – the showers most likely to put on a good show.




Read more:
Explainer: why meteors light up the night sky


We provide details of the full forecast activity period for each shower, and the forecast time of maximum. We also give sky charts, showing you where best to look, and give the theoretical peak rates that could be seen under ideal observing conditions – a number known as the Zenithal Hourly Rate, or ZHR.

It is important to note that the ZHR is the theoretical maximum number of meteors you would expect to see per hour for a given shower, unless it were to catch us by surprise with an unexpected outburst!

In reality, the rates you observe will be lower than the ZHR – but the clearer and darker your skies, and the higher the shower’s radiant in the sky, the closer you will come to this ideal value.

For any shower, to see the best rates, it is worth trying to find a good dark site (the darker the better) – far from streetlights and other illuminations. Once you’re outside, give your eyes plenty of time to adapt to the dark – half an hour should do the trick.

Showers that can only really be seen from one hemisphere or the other are denoted by either [N] or [S], while those that can be seen globally are marked as [N/S].

You can download this ics file and add to your calendar to stay informed on when the meteor showers are due.

Quadrantids [N]

Active: December 28 – January 12

Maximum: January 4, 2:20am UT = 2:20am GMT = 3:20am CET

ZHR: 120 (variable, can reach ~200)

Parent: It’s complicated (comet 96P/Macholz and asteroid 2003 EH1)

Despite being one of this year’s three most active annual showers, the Quadrantids are often overlooked and under-observed. This is probably the result of their peak falling during the depths of the northern hemisphere winter, when the weather is often less than ideal for meteor observations.

For most of the fortnight they are active, Quadrantid rates are very low (less than five per hour). The peak itself is very short and sharp, far more so than for the year’s other major showers. As a result, rates exceed a quarter of the maximum ZHR for a period of just eight hours, centred on the peak time.

The Quadrantid radiant lies in the northern constellation Boötes, relatively near the tail of Ursa Major, the Great Bear. The radiant is shown here at around midnight, local time, as it begins to climb higher in the northeastern sky.
Museums Victoria/Stellarium, Author provided

The Quadrantid radiant lies in the northern constellation Boötes, the Herdsman, and is circumpolar (never sets) for observers poleward of 40 degrees north. As a result, observers in northern Europe and Canada can see Quadrantids at any time of night. The radiant is highest in the sky (and the rates are best) in the hours after midnight.

For this reason, this year’s peak (at 2:20am UT) is best suited for observers in northern Europe – and given that peak rates can exceed 100 per hour, it is certainly worth setting the alarm for, to get up in the cold early hours, and watch the spectacle unfold.

This false-color composite image shows a combination of Quadrantid and non-Quadrantid meteors streaking through the skies over NASA’s Marshall Space Flight Center, in the US, on the night of January 3-4, 2012.
NASA/MSFC/Meteoroid Environments Office/Danielle Moser and Bill Cooke, CC BY-NC

Alpha Centaurids [S]

Active: January 31 – February 20

Maximum: February 8, 1:00pm UT = February 8, 9pm (WA) = February 8, 11pm (QLD) = February 9, 12am (NSW/ACT/Vic/Tas)

ZHR: Variable; typically 6, but can exceed 25

Parent: Unknown

The Alpha Centaurids are a minor meteor shower, producing typical rates of just a few meteors per hour. But they are famed as a source of spectacular fireballs for southern hemisphere observers and so are worth keeping an eye out for in southern summer skies.

Alpha Centaurids are fast meteors, and are often bright. As with most showers that are only visible from the southern hemisphere, they remain poorly studied. Though typically yielding low rates, several outbursts have occurred where rates reached or exceeded 25 per hour.

The shower’s radiant lies close to the bright star Alpha Centauri – the closest naked-eye star to the Solar System and the third brightest star in the night sky.

The Alpha Centaurids are well placed for the southern hemisphere. This view from Brisbane around the time of maximum activity.
Museums Victoria/Stellarium

Alpha Centauri is just 30 degrees from the south celestial pole. As a result, the radiant essentially never sets for observers across Australia. The best rates will be seen from late evening onward, as the radiant rises higher into the southern sky.

This year, the peak of the Alpha Centaurids coincides with the New Moon, making it an ideal time to check out this minor but fascinating shower.

Eta Aquariids [S preferred]

Active: April 19 – May 28

Maximum: May 6, 2pm UT = May 6, 10pm (WA) = May 7, 12am (QLD/NSW/ACT/Vic/Tas)

ZHR = 40+

Parent: Comet 1P/Halley

The Eta Aquariids are possibly the year’s most overlooked treat, particularly for observers in the southern hemisphere. The first of two annual showers produced by comet 1P/Halley, the Eta Aquariids produce excellent rates for a whole week around their peak.

The radiant rises in the early hours of the morning, after the forecast maximum time, and best rates are seen just as the sky starts to brighten with the light of dawn. It can be well worth rising early to observe them, as rates can climb as high as 40 to 50 meteors per hour before the brightening sky truncates the display.

Look for the Eta Aquariids before sunrise and catch Venus and Mercury too.
Museums Victoria/Stellarium

Eta Aquariid meteors are fast and often bright, and the shower regularly rewards those who are willing to rise early. Spectacular Earth-grazing meteors that tear from one side of the sky to the other can be seen shortly after the radiant rises above the horizon.

This year conditions are ideal to observe the shower, with New Moon falling on May 4, just two days before the forecast maximum. As a result, the whole week around the peak will be suitable for morning observing sessions, giving observers plenty of opportunity to see the fall of tiny fragments of the most famous of comets.

Southern Delta Aquariids, Piscis Austrinids and Alpha Capricornids [N/S; S favoured]

Active: Early-July to Mid-August

Maximum: July 28 – 30

Combined ZHR: 35

Parent: Comet 96P/Macholz (Southern Delta Aquariids); Unknown (Piscis Austrinids); Comet 169P/NEAT (Alpha Capricornids)

In most years, the approach of August is heralded by keen meteor observers as the build up to the Perseids – the second of the year’s big three showers. This year, moonlight will interfere, spoiling them for most observers.

But this cloud comes with a silver lining. A fortnight or so before the peak of the Perseids, three relatively minor showers come together to provide an excellent mid-winter show for southern hemisphere observers. This year, the Moon is perfectly placed to allow their observation.

These three showers – the Southern Delta Aquariids, Alpha Capricornids and Pisces Austrinids – favour observers in the southern hemisphere, though they can also be observed from northern latitudes.

Regardless of your location, the best rates for these showers are seen in the hours after midnight. Reasonable rates begin to be visible for southern hemisphere observers as early as 10pm local time.

The radiants of the Southern Delta Aquariids, Alpha Capricornids and Piscis Austrinids ride high in the southern hemisphere sky around local midnight.
Museums Victoria/Stellarium
For northern hemisphere observers, the radiants of the same three showers sit low to the horizon around local midnight.
Museums Victoria/Stellarium

The Southern Delta Aquariids are the most active of the three, producing up to 25 fast, bright meteors per hour at their peak, which spans the five days centred on July 30.

The Alpha Capricornids, by contrast, produce lower rates typically contributing just five meteors per hour. But where the Southern Delta Aquariids are fast, the Alpha Capricornids are very slow meteors and are often spectacular.

Like the Alpha Centaurids, in February, they have a reputation for producing large numbers of spectacular fireballs. This tendency to produce meteors that are both very bright and also slow moving makes them an excellent target for astrophotographers, as well as naked-eye observers.

An Alpha Capricornid meteor captured among the star trails in 2013.
Flickr/Jeff Sullivan, CC BY-NC-ND

Taurids [N/S]

Active: September 10 – December 10

Maxima: October 10 (Southern Taurids); November 13 (Northern Taurids)

ZHR: 5 + 5

Parent: Comet 2P/Encke

The Taurids are probably the most fascinating of all the annual meteor showers. Though they only deliver relatively low rates (approximately five per hour from each of the two streams, north and south), they do so over an incredibly long period – three full months of activity.

In other words, the Earth spends a quarter of a year passing through the Taurid stream. In fact, we cross the stream again in June, when the meteors from the shower are lost due to it being exclusively visible in daylight.

So a third of our planet’s orbit is spent ploughing through a broad stream of debris, known as the Taurid stream. In total, the Taurid stream deposits more mass of meteoric material to our planet’s atmosphere than all of the other annual meteor showers combined.

So vast is the Taurid stream that there is speculation that it originated with the cataclysmic disintegration of a super-sized comet, thousands or tens of thousands of years in the past, and that the current shower is a relic of that ancient event.

The two Taurid radiants, as seen from northern Europe before dawn [Paris 6:30am, October 10]
Museums Victoria/Stellarium
The November maximum will be hindered by the Moon, this view as seen from Melbourne during the early hours of November 13.
Museums Victoria/Stellarium

Taurid meteors are slow, and are often spectacularly bright. Like the Alpha Capricornids, they have a reputation for producing regular fireballs, making them another good target for the budding astrophotographer.

Rather than having a single, sharp peak, Taurid activity stays at, or close to, peak rates for the best part of a month, between the maxima of the northern and southern streams, meaning that it is always possible to find some time when moonlight does not interfere to observe the shower.

Geminids [N/S]

Active: December 4 – December 17

Maximum: December 14, 6:40pm UT = December 15, 4:40am (QLD) = December 15, 5:40am (NSW/ACT/Vic/Tas)

ZHR: 140+

Parent: Asteroid 3200 Phaethon

Another of the big three annual meteor showers, the Geminids are probably the best, with peak rates in recent years exceeding 140 meteors per hour.

A composite image of the Geminids shower from the vantage point of Johnson Space Center, US.
NASA/Lauren Harnett, CC BY-NC

The Geminids are visible from both hemispheres – although the radiant rises markedly earlier for northern observers. Even in the south of Australia, the radiant rises well before midnight, giving all observers the rest of the night to enjoy the spectacle.

The Moon interferes with the Geminids, which radiate close to the bright star Castor. This view is from Perth in the hours before sunrise.
Museums Victoria/Stellarium

Moonlight will seriously interfere with the peak of the shower this year, washing out the fainter meteors, with the result that observed rates will be lower than the ZHR might otherwise suggest.

But the shower regularly produces abundant bright meteors, and yields such high rates that it is still well worth checking out, even through the glare of the full Moon.

Ursids [N]

Active: December 17 – December 26

Maximum: December 23, 3:00am UT

ZHR: 10+

Parent: Comet 8P/Tuttle

The final shower of the year – the Ursids – is a treat for northern hemisphere observers alone. Much like the shower that started our journey through the year, the Quadrantids, the Ursids remain poorly observed, often lost to the bleak midwinter weather that plagues many northern latitudes.

But if skies are clear the Ursids are visible throughout the night, as their radiant lies just 12 degrees from the north celestial pole. As such, they make a tempting target for observers to check out in the evening, even if the radiant is at its highest in the early hours of the morning.

Most years, the Ursids are a relatively minor shower, with peak rates rarely exceeding ten meteors per hour. They have thrown up a few surprises over the past century, with occasional outbursts of moderately-fast meteors yielding rates up to, and in excess of, a hundred meteors per hour.

The Ursid radiant, in the constellation Ursa Minor, is circumpolar for almost the entire northern hemisphere, as it lies just 12 degrees from the north celestial pole. It is shown here as it would be seen at 11pm from near Tokyo, Japan.
Museums Victoria/Stellarium

While no such outburst is predicted for 2019, the Ursids have proven to be a shower with a surprise or two left to show and so may just prove to be an exciting way to end the meteoric year.


If you have a good photo of any of this year’s meteor showers that you’d like to share with The Conversation’s readers then please send it to readerspic@theconversation.edu.au. Please include your full name and the location the photo (or any composite) was taken.The Conversation

Jonti Horner, Professor (Astrophysics), University of Southern Queensland and Tanya Hill, Honorary Fellow of the University of Melbourne and Senior Curator (Astronomy), Museums Victoria

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Look up! Your guide to some of the best meteor showers for 2018



File 20171219 27547 1w0do8h.jpg?ixlib=rb 1.1
The 2017 Geminids as seen from Ecuador, against the backdrop of the splendid Milky Way (centre) and the Large Magellanic Cloud (right).
Flickr/David Meyer, CC BY-NC-ND

Jonti Horner, University of Southern Queensland and Tanya Hill, Museums Victoria

This year gets off to a relatively slow start when it comes to seeing the annual major meteor showers.

The Quadrantids, one of the big three annual showers, are lost to the vagaries of the full Moon in early January.

But the year’s other two most active annual showers – the Perseids (in August) and Geminids (in December) – are set to put on fine displays.

So when and where should you look to have the best chance of seeing nature’s fireworks?

Here we present the likely meteoric highlights of 2018. These are the meteor showers most likely to put on a good show this year.


Read more: Stars that vary in brightness shine in the oral traditions of Aboriginal Australians


For each shower, we give the forecast activity period and the predicted time of maximum. We also provide charts showing you where to look, and give the peak rates that could be seen under perfect conditions (known as the maximum Zenithal Hourly Rate, or ZHR).

The actual rate you see will always be lower than this value – but the higher a shower’s radiant in the sky and the darker the conditions, the closer the observed rate will get to this ideal value.

To see the best rates it is well worth trying to find a good dark site, far from street lights. Once outside, make sure to give your eyes plenty of time to adapt to the darkness (at least half an hour).

Showers that can only be seen from one hemisphere are denoted by either [N] or [S], with those that can be seen globally marked as [N/S].

Lyrids [N/S; N favoured]

Active: April 14-30

Maximum: April 22, 6pm UT = April 23, 2am AWST (WA) = 4am AEST (QLD/NSW/ACT/Vic/Tas)

ZHR: 18+

Parent: Comet C/1861 G1 (Thatcher)

The Lyrids hold the record for the shower with the longest recorded history, having been observed since at least 687BC.

That longevity is linked to the orbit of the Lyrid’s parent comet, discovered in 1861 by A. E. Thatcher. Comet Thatcher moves on a highly inclined, eccentric orbit, swinging through the inner Solar system every 415 years or so. Its most recent approach to Earth was in 1861.

Compared with many other comets, Thatcher’s orbit is relatively stable, as the only planet with which it can experience close encounters is Earth. This means the meteors it sheds continue to follow roughly the same orbit.

Over the millennia, that shed debris has spread all around the comet’s vast orbit, meaning that for thousands of years, every time Earth intersects Comet Thatcher’s orbit, the Lyrids have been seen, as regular as clockwork.

One study of the orbits of Lyrid meteors even suggests the shower may have been active for at least a million years.

Across Australia, the Lyrids are best seen an hour before sunrise, when the radiant is at its highest [Brisbane 5am].
Museums Victoria/stellarium

These days, the Lyrids are usually a moderately active shower, producing somewhere between 10 and 20 fast, bright meteors per hour at their peak. Occasionally, though, the Lyrids have thrown up a surprise, with rates climbing far higher for a period of several hours.

The best of those outbursts seem to occur every 60 years or so, with the most recent occurring in 1982 when observed rates reached or exceeded 90 per hour.

No such outburst is predicted for 2018, but even in quiet years, the Lyrids are still a fun shower to observe.

From the USA, the radiant is well placed from late evening until early morning [Chicago 11pm].
Museums Victoria/stellarium

They are best seen from northern latitudes, but their radiant is far enough south for observers throughout Australia to observe them in the hours before dawn.

For observers at mid-northern latitudes, the Lyrid radiant reaches suitable altitude by about 11pm local time. Viewers in the southern hemisphere have to wait until the early hours of the morning before reasonable rates can be observed.

The forecast time of maximum this year favours observers in Australia and east Asia but the timing of maximum has been known to vary somewhat, so observers around the globe will likely be keeping their eyes peeled, just in case!

Perseids [N]

Active: July 17 – August 24

Maximum: August 12, 8pm UT – August 13, 8am UT = from August 12, 9pm BST (UK) = 10pm CEST (Europe) = 6pm EDT (East Coast, US) = 3pm PDT (West Coast, US) for 12 hours

ZHR: 110

Parent: Comet 109P/Swift-Tuttle

For observers in the northern hemisphere, the Perseids are a spectacular summer highlight. At their peak, rates often reach or exceed 100 meteors per hour, and they are famed for their frequent spectacular fireballs.

The Perseids are probably the best known and most widely observed of all modern meteor showers. They are remarkably consistent, with peak rates usually visible for a couple of evenings, and fall in the middle of the northern hemisphere summer holiday season. The warm nights and frequent clear skies at that time of year make the shower a real favourite!

Like the Lyrids, the Perseids have a long and storied history, having been observed for at least 2,000 years. Their parent comet, 109P/Swift-Tuttle, is a behemoth, with the largest nucleus of the known periodic comets – some 26km in diameter.

It has likely moved on its current orbit for tens of thousands of years, all the time laying down the debris that gives us our annual Perseid extravaganza. It will next swing past Earth in 2126 when it will be a spectacular naked eye object.

From the UK, the Perseids radiant is visible all night and summer is the perfect time for meteor watching [Greenwich 9pm].
Museums Victoria/stellarium

This year the forecast maximum for the Perseids favours observers in Europe, although given the length of peak activity, any location in the northern hemisphere has the potential to see a spectacular show on the night of August 12.

But don’t despair if it’s cloudy that night, as the Perseids have a relatively broad period of peak activity, meaning that good rates can be seen for a few days either side of their peak.

In 2018, the peak of the Perseid shower coincides with the New Moon, and so is totally unaffected by moonlight, which makes this an ideal year to observe the shower.

The further north you are, the earlier the shower’s radiant will be visible. But reasonable rates can typically be seen any time after about 10pm, local time. The later in the night you observe, the better the rates will be, as the radiant climbs higher into the sky.

It is not uncommon for enthusiastic observers to watch the shower until dawn on the night of maximum, seeing several hundred meteors in a single night.

A fantastic Perseids display from 2016 over Austria.
Flickr/Michael Karrer, CC BY-NC

Draconids [N]

Active: October 6-10

Maximum: October 9, 12:10am UT = 1:10am BST (UK) = 2:10am CEST (Europe)

ZHR: 10+

Parent: Comet 21P/Giacobini-Zinner

The Draconids are a fascinating meteor shower, although in most years, somewhat underwhelming. Unlike the previous showers, the Draconids are a relatively young meteor shower that can vary dramatically from one year to the next.

First observed less than a century ago, the Draconids (also known as the Giaocobinids) are tied to a Jupiter-family comet called 21P/Giacobini-Zinner.

That comet was the first to be visited by a spacecraft, and has frequent close encounters with Jupiter, which continually nudges its orbit around. These encounters also perturb the meteor stream the comet is laying down, sometimes enhancing rates at Earth and sometimes diminishing them.

In the early 20th century, it was realised that Comet Giacobini-Zinner’s orbit comes close enough to Earth that we might be able to see meteors as we plough through the debris it leaves behind.

This led to the first predictions of Draconid activity. Sure enough, in 1920, the great meteor observer W. F. Denning confirmed the existence of the shower, with a mere five meteors observed between October 6 and October 9.

In 1933 and 1946, the Draconids produced two of the greatest meteor displays of the 20th century – great storms, with peak rates of several thousand meteors per hour. In those years, Earth crossed the comet’s orbit just a month or two after the comet passed through perihelion (closest approach to the Sun), and Earth ploughed through dense material in the comet’s wake.

After 1946, the Draconids went quiet, all but vanishing from our skies. Jupiter had swung the comet onto a less favourable orbit. Only a few Draconids were seen in 1972, then again in 1985 and 1998.

The late 1990s saw a renaissance in our ability to predict and understand meteor showers, born of enhanced activity exhibited by the Leonid meteor shower. Using the techniques developed to study the Leonids, astronomers predicted enhanced activity from the Draconids in 2011, and the predicted outburst duly occurred, with rates of around 300 meteors per hour being observed.

Europe is well placed to catch some Draconids streaming from the eye of the dragon, near the star Rastaban [Paris 12:30am].
Museums Victoria/stellarium

This year comet Giacobini-Zinner once again passes through perihelion and swings close to Earth’s orbit. The chances are good that the shower will be active – albeit unlikely to produce a spectacular storm.

Modelling suggests that rates of 20 to 50 faint meteors per hour might be seen around 12:14am UT on October 9. Other models suggest that rates will peak about 45 minutes earlier, with lower rates of 15 to 20.

The Draconid radiant is circumpolar (that is, it never sets) for locations north of 44°N, and is highest in the sky before midnight. This year, the Moon is new at the time of the forecast peak, which is ideally timed for observers in Europe.

If skies are clear that evening, it is well worth heading out at around 11:30pm BST on October 8 (12:30am CEST on October 9) and spending a couple of hours staring north, just in case the Draconids put on another spectacular show.

Taurids [N/S]

Active: September 10 – December 10

Maxima: October 10 (Southern Taurids); November 12 (Northern Taurids)

ZHR: 5 + 5

Parent: Comet 2P/Encke

Of all the year’s meteor showers, the one that dumps the greatest amount of dust into Earth’s atmosphere are the Taurids. The inner Solar system contains a vast swathe of debris known as the Taurid stream. It is so spread out that Earth spends a quarter of the year passing through it.

In June, that debris spawns the Daytime Taurid meteor shower, which (as the name suggests) occurs during daylight hours, and is only really known thanks to radio observations.

After leaving the stream for a little while, Earth penetrates it again at the start of September, and activity continues right through until December. Hourly rates fluctuate up and down, with several distinct peaks and troughs through October and November.

The Taurid stream is complex – with at least two main components, known as the northern and southern branches. Typically, the Southern Taurids are active a little earlier in the year and reach their peak about a month before the northern branch.

During northern autumn, the Taurids can be seen radiating from the western sky before dawn [Paris 6:30am October 10].
Museums Victoria/stellarium
For the southern spring, the Taurids radiate from the northern sky before dawn [Melbourne 3:30am November 12].
Museums Victoria/stellarium

The Taurids are slow meteors and feature plenty of bright fireballs. So even though their rates are low, they are well worth looking out for, particularly when other showers are also active, such as the Draconids, the Orionids and the Leonids.

Put together, these showers make the northern autumn or the southern spring a great time to get out and look for natural fireworks.

Orionids [N/S]

Active: October 2 – November 7

Maximum: October 21

ZHR: 20+

Parent: Comet 1P/Halley

Twice a year, Earth runs through the stream of debris littered around the orbit of Comet 1P/Halley. Throughout the month of October this gives rise to the Orionid meteor shower.

The Orionids are a fairly reliable meteor shower with a long, broad maximum. Typically, peak rates can last for almost a week, centred on the nominal maximum date. Throughout that week, Orionid rates can fluctuate markedly, leading to a number of distinct maxima and minima.

Orionid meteors are fast – much faster than the Taurids that are active at the same of year. Like the Taurids, they are often bright, the result of the high speed at which the meteoroids hit Earth’s atmosphere.

Before sunrise, Orion stands upright in the southwest as seen from the northern hemisphere [Chicago 5am].
Museums Victoria/stellarium
But from the southern hemisphere Orion appears to be standing on his head, in the northern sky before dawn [Sydney 5am].
Museums Victoria/stellarium

The Orionid radiant rises in the late evening and is only really high enough in the sky for reasonable rates to be seen after midnight. As a result, the best rates are usually observed in the hours before dawn.

This works well this year, as the Moon will be in its waxing gibbous phase, setting some time after midnight and leaving the sky dark, allowing us to watch for pieces of the most famous comet of them all.

Geminids [N/S]

Active: December 4-17

Maximum: December 14, 12:30pm UT = Australia: December 14, 8pm AWST (WA) = 10:30pm (QLD) = 11:30pm AEST (NSW/ACT/Vic/Tas) = United States: December 14, 7:30am (EST) = 5:30am (PST) = 2:30am (Hawaii)

ZHR: 120

Parent: Asteroid 3200 Phaethon

As the year comes to a close, we reach the most reliable and spectacular of the annual meteor showers – the Geminids. Unlike the Perseids and the Lyrids, which have graced our skies for thousands of years, the Geminids are a relatively new phenomenon.

They were first observed just 150 years ago, and through the first part of the 20th century were a relatively minor shower. But since then rates have improved decade-on-decade, to the point where they are now the best of the annual showers, bar none.

The reason for their rapid evolution is that their orbit (and that of their parent body, the asteroid Phaethon) is shifting rapidly over time, precessing around the Sun (wobbling like a slow spinning top). As it does so, the centre of Phaethon’s orbit, and the centre of the Geminid stream, are moving ever closer to Earth.

For northern locations, the radiant rises shortly after sunset, and good rates can be seen from mid-evening onwards. For observers in the southern hemisphere, the radiant rises later, so good rates are delayed until later at night (as detailed in our 2015 report on the shower).

Although the time of maximum this year seems to favour observers in the Americas and Australia, peak rates from the Geminids usually last around 24 hours, and so good rates should be visible around the globe.

This year the maximum falls a day before the Moon reaches first quarter so the best rates are visible (after midnight, local time) when the Moon will have set and moonlight will not interfere.

Australia’s summer meteor shower, the consistent and spectacular Geminids in the early morning sky [Brisbane 4am].
Museums Victoria/stellarium
The Geminids appear high overhead over American skies in winter [Los Angeles midnight].
Museums Victoria/stellarium

Given that rates from the Geminids continue to climb, the estimated ZHR of 120 is likely to be somewhat conservative. Rates in excess of 130, and even as high as 200 per hour, have been seen in recent years.

Geminids are medium-speed meteors and are often bright. The individual meteors also seem to last just that bit longer than other showers, a fact likely related to their parent object’s rocky nature.

The ConversationWherever you are on the planet, the Geminids are a fantastic way to bring the year to an end, and we will hopefully be treated to a magnificent display this year.

Jonti Horner, Vice Chancellor’s Senior Research Fellow, University of Southern Queensland and Tanya Hill, Honorary Fellow of the University of Melbourne and Senior Curator (Astronomy), Museums Victoria

This article was originally published on The Conversation. Read the original article.

Look up! Your guide to some of the best meteor showers for 2016


Jonti Horner, University of Southern Queensland and Tanya Hill, Museum Victoria

Many meteor showers, caused by the Earth passing through streams of debris left behind by comets and asteroids, occur as regularly as clockwork, year on year. But whether you can see a great display in the night sky from a given shower varies from year to year, for a variety of reasons.

So what will be the highlights of the coming year, 2016?

Unfortunately, several of the year’s best showers (including the wonderful Geminids) will be wiped out by moonlight in 2016, so aren’t mentioned in this list. Fortunately, though, several good showers remain.

If a shower can only be seen from the northern hemisphere, we’ll denote that with an (N). For southern hemisphere showers, we’ll use (S), and for those visible from both hemispheres, we’ll use (N/S).

For each shower, the time of forecast maximum is given in Universal Time (UT), with conversions to local time for certain regions where the shower could be observed (such as the east to west coast of the US, or the east to west coast of Australia). For other regions where the shower is visible, simply convert from UT into your local timezone.


The Quadrantids (N)

Active: December 28, 2015 – January 12, 2016
Forecast Maximum: January 4, 8am UT = 3am EST (East Coast, US) = 12am PST (West Coast, US)

For observers in the northern hemisphere, the year starts with a bang. The Quadrantids are one of the year’s big three meteor showers, yielding rates that can exceed 100 or even 150 meteors per hour.

Unfortunately, their peak is very short, with rates only remaining above about a quarter of their peak for around a day. As a result of this, and the usually highly inclement winter weather in the northern hemisphere at Quadrantid peak, they are often overlooked.

The Quadrantids radiate from the northern part of the northern hemisphere’s sky, with their source rising higher in the sky during the early hours of morning.

The radiant of the shower is actually circumpolar for most of the northern hemisphere, so close to the pole that it never sets. For the same reason, the shower is impossible to observe from the southern hemisphere, where the radiant never rises.

Moonlight will not interfere with the Quadrantids in 2016. So, if skies are clear, it is possible that observers could see a great show. While Quadrantids can be seen at any time during the hours of darkness, the best rates are garnered in the morning hours, as the radiant rises higher into the sky before dawn.

A nice spectacle to start the new year.


The Eta Aquariids (S and low latitudes N)

Active: April 19, 2016 – May 28, 2016
Forecast Maximum: May 5, 8pm UT = May 6, 6am AEST (QLD/NSW/ACT/Vic/Tas) = May 6, 3am AWST (WA)

The Eta Aquariids are another shower best seen in the early hours of the morning. But they can be well worth setting your alarm early to observe.

Fragments of the most famous of comets, 1P/Halley, the Eta Aquariids are a broad meteor stream. It takes the Earth around six weeks to cross their full width.

The maximum occurs around May 5, and unlike the Quadrantids, the peak is broad. Rates often exceed 30 meteors per hour, in the hours before dawn, for over a week around the peak.

The Eta Aquariids as seen from Brisbane, an hour before sunrise.
Museum Victoria/Stellarium

Eta Aquariids are fast meteors, hitting Earth’s atmosphere at 66km/s. They are often truly spectacular when seen shortly after the radiant rises, a few hours before dawn. These Earth-grazers often span the sky from horizon to horizon, leave lingering smoky trails, and are definitely an eye-catching sight.

The peak of the shower in 2016 occurs around the time of New Moon making it an ideal year to check out this enigmatic morning shower.


Piscis Austrinids, Southern Delta Aquariids and Alpha Capricornids (N/S)

Active: Late-July/Early-August
Forecast Maximum: July 28-30, 2016, around midnight local time

In the middle of the northern hemisphere summer, the attention of meteor observers usually turns to the Perseids, one of the highlights of the year. But a number of more minor showers are also active towards the end of July and start of August, and between them, they combine to give reasonable rates for observers in both hemispheres.

While the Perseids (which we’ll say more about in a moment) are best seen from northern skies, the Piscis Austrinids, Southern Delta Aquariids and Alpha Capricornids are visible across the globe and are actually easier to observe from the southern hemisphere than the north.

While each of the showers is relatively minor (at least compared to streams like the Perseids), they combine to yield 20 or 30 meteors per hour at their maxima, which all fall together in a cluster around the July 28-30.

A trio of meteor showers, as seen from the Southern Hemisphere around local midnight.
Museum Victoria/Stellarium

The new moon falls on August 2, which means the maxima of these showers can be observed under dark skies, giving an ideal opportunity to check out these less well known showers.

Of the three showers, the Southern Delta Aquariids are the most active. They display several sub-maxima around July 26-31, reaching around 15 to 20 meteors per hour under perfect conditions.

The other two showers are weaker, perhaps yielding around five meteors per hour each at their peak (though they have occasionally exhibited higher rates). But the Alpha Capricornids have a reputation for producing bright, slow, spectacular fireballs, so are well worth looking out for.

The best viewing for these showers is around midnight, local time, though they can be seen for most of the night.

The same meteor showers, as seen from the Northern Hemisphere around local midnight.
Museum Victoria/Stellarium


The Perseids (N)

Active: July 17, 2016 – August 24, 2016
Forecast Maximum: August 12, 1-4pm UT = 9am-12pm EDT (East Coast, US) = 6-9am PDT (West Coast, US) = 10pm-1am, August 13 JST (Japan)

The Perseids are only really accessible for observers in the northern hemisphere, but from there, they can be truly spectacular.

They occur in the middle of the northern hemisphere summer, during the school holidays there, and almost feel designed to get people interested in astronomy.

The Perseids are possibly the most easily accessible of the three big ones. Where the Geminids and Quadrantids occur in the often bitter depths of the northern winter, the Perseids are well suited to camping, and relaxation on a pleasant warm night.

The Perseid radiant reaches a useful altitude at around 10pm or 11pm, local time. From then on, conditions continue to improve through the early hours of the morning.

During the early hours of the morning, the Perseid Radiant rises ever higher, resulting in more visible meteors.

In any given year, at maximum, the Perseids can yield in excess of 100 meteors per hour. But 2016 could be unusually good. Calculations show that the Perseid debris stream has been nudged by the gravitational influence of Jupiter, bringing the densest part closer to Earth’s orbit.

As a result, Perseid rates promise to be particularly high. It is quite feasible that maximum rates could exceed 150 per hour.

In addition, 2016’s peak may feature several sub-maxima, as Earth passes through concentrations of dust laid down by the Perseid’s parent comet, 109P/Swift-Tuttle, during previous perihelion passages.

This is particularly important for observers in Europe. On the night of August 11 and morning of August 12, it is likely that these enhanced rates might reach, or even surpass, the number of meteors to be seen at the traditional time of maximum, which falls some 14 hours later.

Wherever you are in the northern hemisphere, the nights of August 11 and 12 are a prime time to watch for the Perseids. Perseids are fast meteors, often bright and eye-catching, and make a good excuse for a camping trip.


The Ursids (N)

Active: December 17 – 26, 2016
Forecast Maximum: December 22, 9am UT = 4am EST (East Coast, US) = 1am PST (West Coast, US) = 6pm JST (Japan)

Moonlight unfortunately interferes with the maxima of all the main meteor showers of the final third of the year, washing out the peaks of the Orionids, the Leonids and the Geminids.

At the very end of 2016, however, comes a northern-hemisphere-only shower that is often overlooked, the Ursids. Ursid meteors radiate from a point just 14 degrees from the north celestial pole.

As a result, their radiant is circumpolar (never sets) for all locations north of a latitude of 14 degrees. The further north you live, the higher the radiant sits in the sky, meaning that Ursid meteors can be observed throughout the hours of darkness.

The Ursid Radiant as seen from Tokyo at midnight December 23.
Museum Victoria/Stellarium

The Ursids occur at the northern-hemisphere mid-winter. This results in the unusual situation that it is possible for people in the Arctic Circle to observe a meteor shower in the middle of the day.

In most years, the Ursids are only a moderately active shower. Around maximum, rates usually reach just about ten per hour. But on a couple of occasions in the past 50 years, the Ursids have produced outbursts, with rates reaching or exceeding 50 per hour.

Given how poorly observed and characterised the Ursids are, it may well be that several other such outbursts were missed. Indeed, there have certainly been several other years in which observed rates were moderately higher than usual.

While no outburst is explicitly forecast for this year, the Ursid meteor shower could prove a very nice way to end another year of meteor observing.


For more information on the meteor showers throughout 2016, check out the International Meteor Organisation’s 2016 meteor calendar.

The Conversation

Jonti Horner, Vice Chancellor’s Senior Research Fellow, University of Southern Queensland and Tanya Hill, Honorary Fellow of the University of Melbourne and Senior Curator (Astronomy), Museum Victoria

This article was originally published on The Conversation. Read the original article.

This year’s Geminid meteor shower will be a true spectacle


Jonti Horner, University of Southern Queensland and Tanya Hill, Museum Victoria

The annual Geminid meteor shower is one of the highlights of every year and 2015 promises to be extra special, particularly for those in Australia.

The reason? The moon, which often interferes with our view of meteor showers by washing out all but the brightest members, will be just three days from new at the peak of the Geminids this month. As such, the best rates will be visible in dark, moonless skies.

What’s more, the timing of the event is perfect for Australia. The forecast maximum is expected to occur during the early hours of Tuesday, December 15, when the Geminid radiant (the point in the sky from which meteors appear to radiate) is riding high in the Australian sky.

The Geminids were first observed just one hundred and fifty years ago, relatively recently in astronomical terms. At first, just a few meteors were seen, but over the years the maximum rate observed has climbed.

For the past couple of decades, the annual peak has regularly reached (or exceeded) 120 meteors per hour. These high rates, the general brightness of the meteors, and the reliability of the Geminids combine to make it one of the best showers of the year.

The origins

Meteor showers occur when the Earth, on its orbit around the sun, passes through a swathe of debris left behind by one of the solar system’s small bodies. In most cases, the parent object is a comet, but in the case of the Geminids, the parent is actually a disintegrating asteroid named 3200 Phaethon.

Phaethon is a small, rocky object that has a remarkably eccentric orbit, which brings it closer to the sun than any other named asteroid.

At perihelion, it is just 20 million kilometres from the sun (well inside the orbit of Mercury) and its surface bakes in the daytime and freezes at night. With a rotation period of less than four hours, the constantly alternating extremes of temperature takes its toll on the asteroid’s surface.

The continual expansion and contraction causes Phaethon’s rocky surface to fracture and break. As these fragments are shed, they tend to spread around the asteroid’s orbit. It is this debris stream that Earth is passing through right now, to create the annual Geminid meteor shower.

Heading for peak activity

Unlike the Perseids and Quadrantids, two of the year’s other finest showers, the Geminids are easily observed from both the northern and southern hemispheres. This makes them a true annual treat, wherever you are on the planet.

The Geminids radiant travels across the northern sky, as seen from Perth.

The Geminids are already underway, and will slowly build towards their peak on Tuesday, December 15. Those peak rates usually last around a day or so, but are then followed by a rapid decay in the number of meteors seen. The shower ceases to be active just three days after maximum.

The time of the peak is expected to occur around 4am AEST (Qld), 5am AEDT (NSW, ACT, Vic and Tas), 4:30am ACDT (SA), 3:30am ACST (NT) and 2am AWST (WA).

How to see the Geminids

Although the Geminids can be observed from anywhere in Australia, the further north you live, the higher the radiant will appear in the sky and the better your view will be.

The radiant of the shower rises in the late evening (see the table, below). It’s not possible to see meteors before then, but once the radiant rises the show will improve, hour on hour as the radiant gets ever higher in the sky.

https://datawrapper.dwcdn.net/WjiOI/1/

For the first couple of hours after the radiant rises, even on the night of maximum, meteors will likely be infrequent, but these Earth-grazers can be truly spectacular. Entering Earth’s atmosphere at the shallowest of shallow angles, they can blaze a trail across almost the entire night sky.

As the night passes, and the radiant rises ever higher, rates should increase. The best way to see the greatest number of meteors is to first find the radiant in the sky.

The Geminids as seen from Brisbane. The further north you are, the higher the radiant appears in the sky.
Stellarium/Tanya Hill, CC BY

The Geminids appear to come from close to the bright star Castor, one of the two brightest stars in Gemini (hence the name “Geminids”).

Gemini can found below the constellation of Orion, as seen from the southern hemisphere. It rises in the north-east in the late evening, then passes through north to the north-west as the night progresses.

The Geminids as seen from Hobart.
Stellarium/Tanya Hill, CC BY

Once you’ve found the radiant, turn your gaze around 30 to 45 degrees away, either to the left or the right (look towards the direction with the least light pollution for the best results). Then look about 30 to 45 degrees above the horizon.

Looking this distance from the radiant is an ideal compromise. It means that you will be looking through a large enough volume of atmosphere to see a reasonable number of meteors, without looking so far from the radiant that any meteors have already burned up before reaching your field of view.

Also, remember when looking for meteors to make sure you give your eyes time to adapt to the darkness. It can take more than half an hour before your eyes have fully dilated, and you become able to see the faintest stars and many more meteors.

Any bright light (the headlights of a passing car or someone checking their smartphone to read an e-mail) resets the clock.

Also, be careful of your safety, and be aware of any Earth-born hazards when viewing the night sky. One of us (Jonti) had a real shock as a teenager, when observing the Perseid meteor shower from an isolated golf course. At about 10pm he heard a “whoosh”, and was almost drenched by a previously unseen sprinkler!

So good luck, set your alarm clock, and hope for clear skies for this year’s Geminids!

The Conversation

Jonti Horner, Vice Chancellor’s Senior Research Fellow, University of Southern Queensland and Tanya Hill, Honorary Fellow of the University of Melbourne and Senior Curator (Astronomy), Museum Victoria

This article was originally published on The Conversation. Read the original article.