{"id":63931,"date":"2024-09-27T08:25:26","date_gmt":"2024-09-27T08:25:26","guid":{"rendered":"http:\/\/5890d471-283d-4db6-b95f-bd5121d7e304"},"modified":"2024-09-27T08:39:47","modified_gmt":"2024-09-27T08:39:47","slug":"want-to-photograph-a-bright-comet-tips-and-equipment-you-need-to-capture-a-spectacular-image","status":"publish","type":"rss_feed","link":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/rss_feed\/want-to-photograph-a-bright-comet-tips-and-equipment-you-need-to-capture-a-spectacular-image\/","title":{"rendered":"Want to photograph a bright comet? Tips and equipment you need to capture a spectacular image"},"content":{"rendered":"

Top tips for photographing a comet, and how to capture comet images with scientific value. <\/p>

By Pete Lawrence\n <\/p>

Published: Friday, 27 September 2024 at 08:25 AM<\/p>

\n\n

Have you ever wanted to photograph a comet? Photographs of comets can be absolutely spectacular and, as comets are so unpredicatable, they can require a bit of luck and timing to produce something with that ‘wow’ factor.<\/p>

But as well as producing wonderful astrophotography – or cometography – when you photograph a comet your images can contribute to science by helping to document how a comet<\/a> evolves over time.<\/p>

A good and surprising example was comet 17P\/Holmes, which underwent a massive outburst back in 2007, appearing over half a million times brighter than expected.<\/p>

Find out which comets and asteroids are visible tonight<\/a>.<\/strong><\/em><\/p>

Comet 17P\/Holmes imaged on 28 October 2007 with an outburst appearance unlike most comets. Credit: Pete Lawrence<\/figcaption><\/figure>
The outburst was accompanied by many changes in the comet\u2019s appearance that, when viewed in sequence, described the fascinating and unusual evolution of this amazing object.<\/p>
Many different camera setups are suitable for imaging comets.<\/p>
Brighter comets make ideal targets for general photographic equipment, such as a DSLR fitted with a standard lens.<\/p>
Dimmer targets up the ante, requiring more sensitive equipment, typically a cooled CCD camera<\/a> fitted to a telescope.<\/p>
In this guide we’ll give you basic tips on photographing comets, but we’ll also look at some more technical cometography projects that will provide vital scientific data.<\/p>
$\"\"$
Comet C\/2017 passing M106 Vivek Chari, Texas, USA, 24\u201325 June 2020. Equipment: Nikon D5300 DSLR, Stellarvue SV80 apo refractor, Sky-Watcher EQ6R Pro mount<\/figcaption><\/figure>
**Equipment: hardware and software<\/strong><\/h2>****Hardware<\/strong><\/h3>**Binoculars<\/li>
Small and large telescopes<\/li>
DSLR and CCD cameras<\/li>
Aligned tracking mount<\/li><\/ul>
**Software<\/strong><\/p>**
**Astrometrica<\/a> shareware<\/li>**
**Comphot<\/a> comet photometry software<\/li>**
**DeepSkyStacker<\/a><\/li>**
**PixInsight<\/a><\/li>**
Gimp<\/a>\/Photoshop<\/a><\/li><\/ul>
**Photograph a comet – top tips<\/strong><\/h2>** $\"Comet$
Comet ATLAS by Michael Bate, Milton Keynes, 3 April 2020. Equipment: Olympus E-PL7 camera, Sky-Watcher Explorer 200PDS Newtonian reflector, Sky-Watcher HEQ5 mount<\/figcaption><\/figure>
Comets are notoriously awkward objects to photograph against starry backgrounds.<\/p>
While we go to great lengths to remove the effects of Earth\u2019s rotation using equatorial tracking or autoguiding mounts<\/a>, comets mess this up by having their own relative motion against the stars.<\/p>
Tracking the stars keeps them crisp and sharp, as long as your polar alignment<\/a> is accurate, but a comet will often blur.<\/p>
And a comet’s rate of motion varies depending on how close they are to Earth, and the inclination of their orbit to the line of sight of the observer.<\/p>
Exposures in the order of 30, 60, 90 and 120 seconds should work fine for single shots.<\/p>
$\"Comet$
Comet Wirtanen captured by Peter Louer, Tenerife, 8 December 2018. Equipment: Canon EOS 600D DSLR camera, Canon 100-400mm lens, Sky-Watcher NEQ5 Pro SynScan mount.<\/figcaption><\/figure>
If you intend to stack images, the situation is a bit different, as stacking<\/a> accumulates timed motion.<\/p>
Stack sixty 60-second exposures for example and you\u2019re integrating a scene that covers an hour\u2019s worth of cometary movement.<\/p>
Various techniques exist for processing comets with deep-sky backgrounds.<\/p>
One popular method is to process for the background stars and galaxies, getting your processing software to remove any moving objects between frames \u2013 ie, the comet.<\/p>
Then process for the comet itself, attempting to remove background stars.<\/p>
Finally, both sharp images can be combined to give a view showing the comet in sharp relief against its backdrop.<\/p>
$\"C\/2023$
C\/2023 A3 (Tsuchinshan-ATLAS) captured 1 August 2024, 17: 49 UTC by Jos\u00e9 J. Chamb\u00f3. Credit: Jos\u00e9 J. Chamb\u00f3 (www.cometografia.es)<\/figcaption><\/figure>
Your image scale will be determined by the lens or scope attached to your camera\u2019s front.<\/p>
A lens of 600mm focal length<\/a> attached to a non-full frame DSLR (eg, APS-C) will deliver a 2\u02da (long frame dimension) field.<\/p>
A full frame camera with a 1,000mm lens achieves the same field.<\/p>
An aligned tracking mount is needed.<\/p>
Set your camera\u2019s ISO<\/a> to a mid-low value, say ISO 800-1600.<\/p>
For lens-based setups, fully open the lens (lowest f-number). For 30\u201d exposures, use the camera\u2019s 30\u201d setting.<\/p>
For longer values, set the camera to bulb mode and use a remote shutter release to control shutter opening.<\/p>
Use a stopwatch to control exposure lengths.<\/p>
$\"When$
When you photograph a comet, accurate focusing is important, so take your time. Pre-focus on a star using your camera\u2019s Live View facility. Credit Pete Lawrence<\/figcaption><\/figure>
Accurate focusing is important, so take your time. Pre-focus on a star using your camera\u2019s Live View facility.<\/p>
Set the Live View display to maximum magnification. Approach focus, achieve it and wind through it. Repeat until you recognise what focus looks like, then wind to it.<\/p>
If your comet is moving slowly, you may be allowed several minutes of images to be stacked without blurring.<\/p>
DeepSkyStacker can stack and average images, allowing flats and darks to be used.<\/p>
Dark frames<\/a> are equivalent exposures with the lens cap fitted.<\/p>
Flat frames<\/a> are an image of an evenly illuminated white light source, exposing to 50-70% saturation.<\/p>
**Photograph a comet for science<\/strong><\/h2>** $\"Composite$
Composite photograph of Comet NEOWISE captured over Dizin, Iran, by Reyhaneh Valipour on 21 July 2020. Reyhaneh used a Nikon D7100 DSLR, Samyang 16 mm f\/2.0 lens.<\/figcaption><\/figure>
Comets move, often quite rapidly, relative to the background stars.<\/p>
For this reason, mid-range ISOs and relatively short exposures between 30\u2013120 seconds are normally used to photograph a comet.<\/p>
Dark and flat-field calibration is essential to obtain the best and most accurate results.<\/p>
When it comes to registration-stacking, doing it on the stars will result in a blurred comet, while registering on the comet will produce trailing stars.<\/p>
$\"\"$
Comet C\/2020 V2, John Short, Whitburn, Tyne and Wear, 20 November 2022 Equipment: Unistellar eVscope 2 Digital Smart Telescope and mount<\/figcaption><\/figure>
More sophisticated techniques involve registering on the comet and rejecting maximum pixel values between shots.<\/p>
If a comet\u2019s movement is sufficient, this should remove most of the stars.<\/p>
Subtracting the resulting comet-only image from the original star and comet frames will isolate the star-field.<\/p>
Stacking the star-only images and recombining them with the processed comet-only image then allows you to produce a shot of a detailed comet against the background of a sharp star-field.<\/p>
$\"Comet$
Comet C 2017 K2 PANSTARRS Jose Chambo, R\u00edo Hurtado, Coquimbo, Chile, 18 September 2022. Equipment: ZWO ASI2600MM Pro camera, Takahasi Epsilon 180ED f\/2.8 telescope, Paramount MyT mount<\/figcaption><\/figure>
**How to submit your comet photograph for science<\/strong><\/h2>**If you have a photograph of a comet you’re happy with, you can submit it to the British Astronomical Association Comet section<\/a>, or whichever your relevant body happens to be.<\/p>
Submissions to organisations such as the BAA often require image filenames to be formatted in a certain way.<\/p>
For the BAA, the format cometname_yyyymmdd_hhmm_observer<\/strong> is preferred, where cometname<\/strong> is the identifier of the comet, yyyymmdd<\/strong> and hhmm<\/strong> are the date and time of the image and **observer<\/strong> is the imager\u2019s name or initials.<\/p>**
**Scale and orientation should also be included on the comet photograph with the preferred orientation being north up and east to the left.<\/p>**
**$\"Comet$** Comet Leonard captured by Mike Read from Corsley, Wilshire, UK on 9 December 2021. Equipment: ASI2600MC (Optolong L Pro), RedCat51, tracked on EQ6R Pro.<\/figcaption><\/figure>
“Comets are fascinating objects to observe. They are also scientifically very important since they represent material left over from the formation of the Solar System, which has been kept in deep freeze for billions of years,” says Nick James (pictured), director of the British Astronomical Association Comet Section.<\/p>
$\"Nick$
Nick James, Director of the Comet Section, British Astronomical Association.<\/figcaption><\/figure>
“A rare, bright comet can be an extraordinary sight in the sky and even the more mundane objects often behave in ways that we don\u2019t expect. You never quite know what you will see when you go out to observe one.<\/p>
“The Comet Section has been around since 1891 and we aim to encourage observations of these enigmatic objects, both for pleasure and to provide valuable scientific data.<\/p>
“As with many areas of astronomy we have benefited from the revolution in digital imaging systems over the past few decades and our section officers have then necessary expertise to help observers record their sightings.<\/p>
$\"Stuart$
Stuart Atkinson captured this image of Comet C\/2033 E3 (ZTF) on 21 January 2023 from Kendal, UK. Equipment: Canon EOS 700D DSLR camera, tracking mount.<\/figcaption><\/figure>
“When a comet is first discovered it\u2019s important to characterise its orbit and a number of our observers submit very accurate position measurements obtained from images. Once the orbit is secure we can characterise the comet\u2019s activity by measuring how its brightness evolves.<\/p>
“Despite recent developments in digital imaging, visual observers still excel in this area. In fact, visual observations are often crucial in understanding the behaviour of a comet since they allow us to compare recent observations with observations made using similar techniques many years ago.<\/p>
“The Comet section produces a newsletter, *The Comet\u2019s Tale<\/i><\/a>, and there are often items of interest to comet observers in the BAA Journal.”<\/p>*
**Comet astrometry<\/strong><\/h2>** $\"Comet$
Comet astrometry is normally done using a CCD camera<\/figcaption><\/figure>
Astrometry is the science of determining the precise positions and movements of astronomical bodies.<\/p>
This is especially important for small Solar System bodies such as comets where such measurements help refine the object\u2019s orbit.<\/p>
The high accuracy required for the measurements places certain demands on your images.<\/p>
The world-wide clearing house for submission of positional comet measurements is the International Astronomical Union\u2019s Minor Planet Center (MPC), which maintains a detailed Guide to Minor Body Astrometry<\/a>.<\/p>
$\"Comet$
Comet Lovejoy 2014 by Jaspal Chadha, London, UK. Equipment: Skywatcher Espirt 100ED, QSI 690CCD.<\/figcaption><\/figure>
Comet astrometry is normally done using a CCD camera and an image scale of two arcseconds per pixel.<\/p>
A scale of three arcseconds per pixel is considered the lower limit of quality.<\/p>
You can work out your setup\u2019s image scale using this formula:<\/p>
**Image scale (in arcseconds\/pixel) = (206.3 x pixel size in microns) \/ focal length in millimetres.<\/strong><\/em><\/p>**
**To carry out astrometry on a comet requires the reduction of an image containing the comet.<\/p>**
This entails identifying the star field (a process known as \u2018plate-solving\u2019), determining the position of as many stars as possible from permitted catalogues and finally working out the position of the comet using a least-squares plate-constants (LSPC) solution.<\/p>
**This process must be done using software; manual reductions are not considered accurate enough.<\/p>**
**$\"Comet$** Comet C\/2014 Q2 (Lovejoy) by Bill McSorley, Leeds, UK. Equipment: SW150P, HEQ5 Pro Mount, QHY8L cooled ccd.<\/figcaption><\/figure>
Submissions to the MPC must follow strict formatting guidelines.<\/p>
Two submission forms are permitted: one for permanent observatories and one for roving observations.<\/p>
A permanent observatory will ultimately be given a three-digit MPC observatory code, while a roving observation will use the observatory code 247 along with extra data to precisely identify where the observation was made on Earth\u2019s surface.<\/p>
There are full details on how to obtain a permanent observatory code from the MPC in the Guide to Minor Body Astrometry mentioned earlier. <\/p>
The astrometry software listed under recommended software at the top of this article will produce the required MPC submission format automatically.<\/p>
**Get more information about** **permanent observatory submissions<\/a> and roving observations<\/a>.<\/strong><\/em><\/p>**
**Comet photometry<\/strong><\/h2>**
$\"One$
One issue when measuring a comet\u2019s brightness in an interactive program such as MaximDL is determining an \u2018aperture\u2019 size to encompass the entire comet head. Credit: Pete Lawrence<\/figcaption><\/figure>
Photometry is the science of measuring an object\u2019s brightness and there are a number of important aspects to consider when performing photometric measurements on comets. <\/p>
Firstly, images need to be pre-calibrated using matching flat and dark frames.<\/p>
As sky brightness makes a contribution to the comet\u2019s brightness, this too needs to be measured.<\/p>
Some programs, such as MaximDL, perform this function using an aperture and an annulus.<\/p>
The aperture measures the comet\u2019s brightness while the annulus is used to measure the background sky brightness.<\/p>
$\"An$
An object aperture should contain the comet\u2019s head. The inner annulus is a gap, adjusted under software to ideally contain no stars. Credit: Pete Lawrence<\/figcaption><\/figure>
The BAA program Comphot (see Hardware & Software, above) can be used to perform photometry on comet images.<\/p>
This requires two FITS images as a source, one stacked on the background stars and the other on the comet.<\/p>
This is a command line program normally initiated by typing: **comphot offset.fit fixed.fit x y<\/strong><\/p>**
Here offset.fit<\/strong> is the image stacked on the comet, and **fixed.fit<\/strong> is the image stacked on the stars.<\/p>**
**Both files are in the FITS (Flexible Image Transport System) file format, a technical format preferred for astrometry and photometry.<\/p>**
**The x and y values are the coordinates of the comet\u2019s coma centre and can be derived by using a position-measuring program such as Astrometrica.<\/p>**
**The UCAC-4 star catalogue is recommended for positional measurements.<\/p>**
**As the coma contains reflected sunlight as well as light generated by excited coma atoms and molecules, specialist photometric filters are normally used for imaging.<\/p>**
**$\"Common$** Common photometric filters used for comets are V- and R-band filters. They help to isolate reflected sunlight from excitation radiation from within the coma. Credit: Pete Lawrence<\/figcaption><\/figure>
If you\u2019re using FITS images from a CCD without a filter, R-band magnitude values should be selected in Astrometrica.<\/p>
If using a green filter, V-band magnitudes should be used.<\/p>
An R-band filter is a red filter typically centred on 658nm, while the V-band filter is centred on the visual wavelength at 551nm.<\/p>
The Comphot software is capable of outputting its measured findings in the correct format required by the International Comet Quarterly (ICQ).<\/p>
The ICQ requires that this data follows a strict submission format. Details of this format are available at the ICQ observation format webpage<\/a>.<\/p>
**Have you managed to capture a photograph of a comet? Send it to us via** **contactus@skyatnightmagazine.com<\/a> or share it with us via Facebook<\/a>, Twitter<\/a> and Instagram<\/a>.<\/strong><\/em><\/p> <\/body><\/html>\n**
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Equipment: hardware and software<\/strong><\/h2>Hardware<\/strong><\/h3>Binoculars<\/li>Small and large telescopes<\/li>DSLR and CCD cameras<\/li>

Hardware<\/strong><\/h3>Binoculars<\/li>Small and large telescopes<\/li>DSLR and CCD cameras<\/li>