Meteoric Rise [Encore Publication]: How to shoot the Perseid and other meteor showers

Note: My favorite meteor shower of the year, the Perseid, is coming soon!  Only the Geminid shower can approach the Perseid in terms of the expected peak rate of meteors, but the Geminids come in December where the weather can be more challenging, so at least in places like the San Francisco Bay Area, where clear weather reigns in the summer, the Perseid wins hands-down.  Making matters even better, this year the night of peak activity of the Perseid Meteor Shower, August 12/13, comes just one day after a new moon, meaning the sky will be dark and the photography superb.  For those of us who love to shoot shooting stars, the event later this month could be epic.  Read on for more info about how to capture images of meteor showers.

While the Geminid Meteor Shower in December and the Perseid Meteor Shower in August are the best-known, each year there are quite a few major meteor showers that afford great opportunities for seeing meteor activity.  Here is a partial list, courtesy of Sky & Telescope:

Major Meteor Showers in 2018
Shower Radiant and direction Morning of maximum Best hourly rate Parent
Quadrantid* Draco (NE) Jan. 4 60-100 2003 EH1
Lyrid Lyra (E) April 22 10-20 Thatcher (1861 I)
Eta Aquariid* Aquarius (E) May 6 20-60 1P/Halley
Delta Aquariid* Aquarius (S) July 29 20 96P/Machholz
Perseid Perseus (NE) Aug. 13 90 109P/Swift-Tuttle
Orionid* Orion (SE) Oct. 21 10-20 1P/Halley
Southern Taurid Taurus (S) Nov. 5 10-20 2P/Encke
Leonid* Leo (E) Nov. 18 10-20 55P/Tempel-Tuttle
Geminid Gemini (S) Dec. 14 100-120 3200 Phaethon
Ursid* Ursa Minor (N) Dec. 22 10 8P/Tuttle

* Strong moonlight will interfere with these showers.

 

Source: Sky & Telescope

While it’s still technically tricky to make great images of a meteor shower, today’s technology certainly makes it possible for those of us without astronomical budgets to do so.  I shot some nice images of last summer’s Perseid shower and would have been out there shooting the Geminids last December except that the cloud cover here in the San Francisco Bay Area was 95-100%.  Here’s a composite of several images I shot last August of the Perseids.

A composite image made up of one long exposure for the lake, mountain, and trees, plus several 25-second exposures capturing the individual meteors I observed over a 2-hour period.  Buy this photo

Most of the techniques you need for capturing a meteor shower are the same as for capturing the Milky Way.  Review my post from a few weeks ago for a refresher course: Post on Milky Way Photography.

The special challenge when shooting a meteor shower is that meteors can occur anywhere in the sky.  Even with a very wide-angle lens, such as a 14mm or 16mm lens on a full-frame camera, only a small portion of the sky can be covered.  As we are limited to a maximum exposure time of about 25-30 seconds with a 14mm or 16mm lens so as to avoid blurring the stars into star trails, it’s clear that we have to shoot a lot of consecutive images to be likely to capture several meteors throughout the night.  We then use software such as Photoshop to combine the images in which meteors are visible into a single composite image showing all of the meteor activity we captured during the night.

A good tutorial on shooting meteor showers, illustrated with amazing images by Glenn Randall, can be found here: Glenn Randall post on photographing meteor showers.

Have you photographed a meteor shower?  What techniques did you use?  Please share your experiences here.

Want to read more posts about photographic techniques?  Find them all here: Posts on Techniques.

 

Meteoric Rise [Encore Publication]: How to shoot the Perseid and other meteor showers

While the Geminid Meteor Shower in December and the Perseid Meteor Shower in August are the best-known, each year there are quite a few major meteor showers that afford great opportunities for seeing meteor activity.  Here is a partial list, courtesy of Sky & Telescope:

Major Meteor Showers in 2018
Shower Radiant and direction Morning of maximum Best hourly rate Parent
Quadrantid* Draco (NE) Jan. 4 60-100 2003 EH1
Lyrid Lyra (E) April 22 10-20 Thatcher (1861 I)
Eta Aquariid* Aquarius (E) May 6 20-60 1P/Halley
Delta Aquariid* Aquarius (S) July 29 20 96P/Machholz
Perseid Perseus (NE) Aug. 13 90 109P/Swift-Tuttle
Orionid* Orion (SE) Oct. 21 10-20 1P/Halley
Southern Taurid Taurus (S) Nov. 5 10-20 2P/Encke
Leonid* Leo (E) Nov. 18 10-20 55P/Tempel-Tuttle
Geminid Gemini (S) Dec. 14 100-120 3200 Phaethon
Ursid* Ursa Minor (N) Dec. 22 10 8P/Tuttle

* Strong moonlight will interfere with these showers.

 

Source: Sky & Telescope

While it’s still technically tricky to make great images of a meteor shower, today’s technology certainly makes it possible for those of us without astronomical budgets to do so.  I shot some nice images of last summer’s Perseid shower and would have been out there shooting the Geminids last December except that the cloud cover here in the San Francisco Bay Area was 95-100%.  Here’s a composite of several images I shot last August of the Perseids.

A composite image made up of one long exposure for the lake, mountain, and trees, plus several 25-second exposures capturing the individual meteors I observed over a 2-hour period.  Buy this photo

Most of the techniques you need for capturing a meteor shower are the same as for capturing the Milky Way.  Review my post from a few weeks ago for a refresher course: Post on Milky Way Photography.

The special challenge when shooting a meteor shower is that meteors can occur anywhere in the sky.  Even with a very wide-angle lens, such as a 14mm or 16mm lens on a full-frame camera, only a small portion of the sky can be covered.  As we are limited to a maximum exposure time of about 25-30 seconds with a 14mm or 16mm lens so as to avoid blurring the stars into star trails, it’s clear that we have to shoot a lot of consecutive images to be likely to capture several meteors throughout the night.  We then use software such as Photoshop to combine the images in which meteors are visible into a single composite image showing all of the meteor activity we captured during the night.

A good tutorial on shooting meteor showers, illustrated with amazing images by Glenn Randall, can be found here: Glenn Randall post on photographing meteor showers.

Have you photographed a meteor shower?  What techniques did you use?  Please share your experiences here.

Want to read more posts about photographic techniques?  Find them all here: Posts on Techniques.

 

Meteoric Rise [Encore Publication]: How to shoot the Perseid and other meteor showers

While the Geminid Meteor Shower in December and the Perseid Meteor Shower in August are the best-known, each year there are quite a few major meteor showers that afford great opportunities for seeing meteor activity.  Here is a partial list, courtesy of Sky & Telescope:

Major Meteor Showers in 2017
Shower Radiant and direction Morning of maximum Best hourly rate Parent
Quadrantid Draco (NE) Jan. 3 60-100 2003 EH1
Lyrid Lyra (E) April 22 10-20 Thatcher (1861 I)
Eta Aquariid* Aquarius (E) May 6 20-60 1P/Halley
Delta Aquariid Aquarius (S) July 30 20 96P/Machholz
Perseid* Perseus (NE) Aug. 12 90 109P/Swift-Tuttle
Orionid Orion (SE) Oct. 21 10-20 1P/Halley
Southern Taurid* Taurus (S) Nov. 5 10-20 2P/Encke
Leonid Leo (E) Nov. 17 10-20 55P/Tempel-Tuttle
Geminid Gemini (S) Dec. 14 100-120 3200 Phaethon

* Strong moonlight will interfere with these showers.

Source: Sky & Telescope

While it’s still technically tricky to make great images of a meteor shower, today’s technology certainly makes it possible for those of us without astronomical budgets to do so.  I shot some nice images of last summer’s Perseid shower and would have been out there shooting the Geminids last December except that the cloud cover here in the San Francisco Bay Area was 95-100%.  Here’s a composite of several images I shot last August of the Perseids.

A composite image made up of one long exposure for the lake, mountain, and trees, plus several 25-second exposures capturing the individual meteors I observed over a 2-hour period.  Buy this photo

Most of the techniques you need for capturing a meteor shower are the same as for capturing the Milky Way.  Review my post from a few weeks ago for a refresher course: Post on Milky Way Photography.

The special challenge when shooting a meteor shower is that meteors can occur anywhere in the sky.  Even with a very wide-angle lens, such as a 14mm or 16mm lens on a full-frame camera, only a small portion of the sky can be covered.  As we are limited to a maximum exposure time of about 25-30 seconds with a 14mm or 16mm lens so as to avoid blurring the stars into star trails, it’s clear that we have to shoot a lot of consecutive images to be likely to capture several meteors throughout the night.  We then use software such as Photoshop to combine the images in which meteors are visible into a single composite image showing all of the meteor activity we captured during the night.

A good tutorial on shooting meteor showers, illustrated with amazing images by Glenn Randall, can be found here: Glenn Randall post on photographing meteor showers.

Have you photographed a meteor shower?  What techniques did you use?  Please share your experiences here.

Want to read more posts about photographic techniques?  Find them all here: Posts on Techniques.

 

Meteoric Rise [Encore Publication]: How to shoot the Perseid and other meteor showers

Dear Readers,

Tomorrow night (August 12) will be the peak of this year’s Perseid Meteor Shower.  Weather permitting, I plan to be outside in a dark-sky location shooting away at this amazing celestial event.  I’m republishing this popular post as a tutorial for those of you who are new to meteor shower photography, or as a refresher for those who have shot these events before.  Enjoy!

Kyle Adler

=======

While the Geminid Meteor Shower in December and the Perseid Meteor Shower in August are the best-known, each year there are quite a few major meteor showers that afford great opportunities for seeing meteor activity.  Here is a partial list, courtesy of Sky & Telescope:

Major Meteor Showers in 2017
Shower Radiant and direction Morning of maximum Best hourly rate Parent
Quadrantid Draco (NE) Jan. 3 60-100 2003 EH1
Lyrid Lyra (E) April 22 10-20 Thatcher (1861 I)
Eta Aquariid* Aquarius (E) May 6 20-60 1P/Halley
Delta Aquariid Aquarius (S) July 30 20 96P/Machholz
Perseid* Perseus (NE) Aug. 12 90 109P/Swift-Tuttle
Orionid Orion (SE) Oct. 21 10-20 1P/Halley
Southern Taurid* Taurus (S) Nov. 5 10-20 2P/Encke
Leonid Leo (E) Nov. 17 10-20 55P/Tempel-Tuttle
Geminid Gemini (S) Dec. 14 100-120 3200 Phaethon

* Strong moonlight will interfere with these showers.

Source: Sky & Telescope

While it’s still technically tricky to make great images of a meteor shower, today’s technology certainly makes it possible for those of us without astronomical budgets to do so.  I shot some nice images of last summer’s Perseid shower and would have been out there shooting the Geminids last December except that the cloud cover here in the San Francisco Bay Area was 95-100%.  Here’s a composite of several images I shot last August of the Perseids.

A composite image made up of one long exposure for the lake, mountain, and trees, plus several 25-second exposures capturing the individual meteors I observed over a 2-hour period.  Buy this photo

Most of the techniques you need for capturing a meteor shower are the same as for capturing the Milky Way.  Review my post from a few weeks ago for a refresher course: Post on Milky Way Photography.

The special challenge when shooting a meteor shower is that meteors can occur anywhere in the sky.  Even with a very wide-angle lens, such as a 14mm or 16mm lens on a full-frame camera, only a small portion of the sky can be covered.  As we are limited to a maximum exposure time of about 25-30 seconds with a 14mm or 16mm lens so as to avoid blurring the stars into star trails, it’s clear that we have to shoot a lot of consecutive images to be likely to capture several meteors throughout the night.  We then use software such as Photoshop to combine the images in which meteors are visible into a single composite image showing all of the meteor activity we captured during the night.

A good tutorial on shooting meteor showers, illustrated with amazing images by Glenn Randall, can be found here: Glenn Randall post on photographing meteor showers.

Have you photographed a meteor shower?  What techniques did you use?  Please share your experiences here.

Want to read more posts about photographic techniques?  Find them all here: Posts on Techniques.

 

Meteoric Rise [Encore Publication]: How to shoot the Perseid and other meteor showers

While the Geminid Meteor Shower in December and the Perseid Meteor Shower in August are the best-known, each year there are quite a few major meteor showers that afford great opportunities for seeing meteor activity.  Here is a partial list, courtesy of Sky & Telescope:

Major Meteor Showers in 2017
Shower Radiant and direction Morning of maximum Best hourly rate Parent
Quadrantid Draco (NE) Jan. 3 60-100 2003 EH1
Lyrid Lyra (E) April 22 10-20 Thatcher (1861 I)
Eta Aquariid* Aquarius (E) May 6 20-60 1P/Halley
Delta Aquariid Aquarius (S) July 30 20 96P/Machholz
Perseid* Perseus (NE) Aug. 12 90 109P/Swift-Tuttle
Orionid Orion (SE) Oct. 21 10-20 1P/Halley
Southern Taurid* Taurus (S) Nov. 5 10-20 2P/Encke
Leonid Leo (E) Nov. 17 10-20 55P/Tempel-Tuttle
Geminid Gemini (S) Dec. 14 100-120 3200 Phaethon

* Strong moonlight will interfere with these showers.

Source: Sky & Telescope

While it’s still technically tricky to make great images of a meteor shower, today’s technology certainly makes it possible for those of us without astronomical budgets to do so.  I shot some nice images of last summer’s Perseid shower and would have been out there shooting the Geminids last December except that the cloud cover here in the San Francisco Bay Area was 95-100%.  Here’s a composite of several images I shot last August of the Perseids.

A composite image made up of one long exposure for the lake, mountain, and trees, plus several 25-second exposures capturing the individual meteors I observed over a 2-hour period.  Buy this photo

Most of the techniques you need for capturing a meteor shower are the same as for capturing the Milky Way.  Review my post from a few weeks ago for a refresher course: Post on Milky Way Photography.

The special challenge when shooting a meteor shower is that meteors can occur anywhere in the sky.  Even with a very wide-angle lens, such as a 14mm or 16mm lens on a full-frame camera, only a small portion of the sky can be covered.  As we are limited to a maximum exposure time of about 25-30 seconds with a 14mm or 16mm lens so as to avoid blurring the stars into star trails, it’s clear that we have to shoot a lot of consecutive images to be likely to capture several meteors throughout the night.  We then use software such as Photoshop to combine the images in which meteors are visible into a single composite image showing all of the meteor activity we captured during the night.

A good tutorial on shooting meteor showers, illustrated with amazing images by Glenn Randall, can be found here: Glenn Randall post on photographing meteor showers.

Have you photographed a meteor shower?  What techniques did you use?  Please share your experiences here.

Want to read more posts about photographic techniques?  Find them all here: Posts on Techniques.

Meteoric Rise: How to shoot the Perseid, Geminid, and other meteor showers

The next two nights (Dec. 13-15) offer a treat to landscape and night photographers around the world.  This time period is the peak of the Geminid Meteor Shower, which, along with the Perseid Meteor Shower (peaking around August 12-14), affords the best opportunity of the year for seeing meteor activity.

While it’s still technically tricky to make great images of a meteor shower, today’s technology certainly makes it possible for those of us without astronomical budgets to do so.  I shot some nice images of last summer’s Perseid shower and would be out there shooting the Geminids the next two nights except that the cloud cover here in the San Francisco Bay Area is expected to be 95-100%.  Here’s a composite of several images I shot last August of the Perseids.

A composite image made up of one long exposure for the lake, mountain, and trees, plus several 25-second exposures capturing the individual meteors I observed over a 2-hour period.  Buy this photo

Most of the techniques you need for capturing a meteor shower are the same as for capturing the Milky Way.  Review my post from a few weeks ago for a refresher course: Post on Milky Way Photography.

The special challenge when shooting a meteor shower is that meteors can occur anywhere in the sky.  Even with a very wide-angle lens, such as a 14mm or 16mm lens on a full-frame camera, only a small portion of the sky can be covered.  As we are limited to a maximum exposure time of about 25-30 seconds with a 14mm or 16mm lens so as to avoid blurring the stars into star trails, it’s clear that we have to shoot a lot of consecutive images to be likely to capture several meteors throughout the night.  We then use software such as Photoshop to combine the images in which meteors are visible into a single composite image showing all of the meteor activity we captured during the night.

A good tutorial on shooting meteor showers, illustrated with amazing images by Glenn Randall, can be found here: Glenn Randall post on photographing meteor showers.

Have you photographed a meteor shower?  What techniques did you use?  Please share your experiences here.

Want to read more posts about photographic techniques?  Find them all here: Posts on Techniques.