What you’ll see<\/strong><\/h2>You can get great, close-up views of our star with the right observing equipment, be that solar filters or specially-designed solar telescopes.<\/p>
But it\u2019s important to realise that the Sun\u2019s intense heat and light can be very dangerous if not treated with respect.<\/p>
So you must always observe the Sun safely, using the right equipment.<\/p>
It is also possible to capture an image of the Sun, and do it safely. For more on this, read our guide on how to photograph the Sun<\/a>.<\/p>![\"How](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/safely-observe-sun-1024x917.jpg?fit=800%2C716\")
Credit: Arturo Buenrostro, Dallas, Texas, USA, 24 November 2023<\/figcaption><\/figure>You should never observe the Sun with any optical apparatus that has not been fitted with a proper solar filter.<\/p>
Don\u2019t use sunglasses or layers of photographic film \u2013 it\u2019s just not worth the risk.<\/p>
We have numerous guides that might be of use to your solar observing, such as how to make a pinhole camera<\/a>, how to build a simple solar finder<\/a>, how to build a solar projection screen<\/a> and how to safely polar align an equatorial mount using the Sun<\/a>.<\/p>Many of the techniques described below can also be used to help you observe the next eclipse<\/a>.<\/p>Equipment for safely observing the Sun<\/strong><\/h2>![\"Solar](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/05\/20181113SkyatNight_30477-copy-ae1c72c-e1558699577329.jpg\" "\\"\\"\/")
Solar filters provide an excellent way of safely observing the Sun upclose.<\/figcaption><\/figure>There are numerous ways to safely observe the Sun, such as<\/p>
- Solar filters<\/li>
- Eclipse glasses<\/li>
- Solar projection<\/li>
- Solar telescopes<\/li><\/ul>
We’ll cover each below.<\/p>
Solar filters<\/strong> are a great way to safely observe the Sun, but they are very dense.<\/p>They have to be able to filter all visible wavelengths to a safe level, as well as blocking infrared and ultraviolet light: wavelengths that can cause permanent damage to the eyes.<\/p>
You can also use eclipse glasses<\/a><\/strong>, with which you can safely get the same views. But make sure they are absolutely clean and scratch-free.<\/p>If they’ve been lying around your house for sometime, they may no longer be safe. Never take chances when attempting to observe the Sun.<\/p>
For more advice, read our guide on how to make sure your eclipse glasses are safe<\/a>.<\/p>![\"Eclipse](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2023\/04\/GettyImages-1483461238-4799b87.jpg\")
Eclipse glasses are a simple, low-cost way to safely observe the Sun, but make sure you buy them from a reputable supplier, and in good condition. Photo by Robertus Pudyanto\/Getty Images<\/figcaption><\/figure>If you want to get more than just a safe, naked-eye view of the Sun you\u2019ll need something a bit more substantial than basic protection.<\/p>
With a telescope or binoculars on a tripod, you can project the Sun\u2019s image onto a large piece of white card to see features on the photosphere (its visible surface).<\/p>
The card is simply placed in front of the eyepiece where your eye would normally go.<\/p>
If attempting this method, do not look directly down the eyepiece, and make sure your finders are covered.<\/p>
This method is for indirect observation only.<\/p>
And never leave your telescope pointed at the Sun unattended.<\/p>
Once everything is set up, and after some focusing, you can easily see any sunspots<\/a>.<\/p>For more on this, read our guide on how to observe sunspots<\/a>.<\/p>![\"The](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/08\/14.MajaMajewska_SunAndPlane-02d995b.jpg\" "\\"\\"\/")
The Sun and plane, by Maja Majewska, Kew Bridge, London, 8 June 2020. Equipment: Canon EOS 6D camera, Sigma 150\u2013600mm lens<\/figcaption><\/figure>You can also get safe solar views through reflectors and refractors by fitting a solar filter over the front, objective end of the telescope.<\/p>
These cut out all of the ultraviolet and infrared radiation (heat) from the Sun and also 99.9% of its brightness, so the internal workings don\u2019t heat up.<\/p>
Solar filters are made from materials such as aluminium-coated Mylar, or coated glass \u2013 but do get advice from a reputable dealer.<\/p>
It\u2019s important never<\/em> to use a solar filter that screws into an eyepiece.<\/p>These are very dangerous because they sit at the point where the full power of the Sun is focused and could shatter and let in blinding sunlight.<\/p>![\"best](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2023\/10\/best-solar-telescopes-1024x682.jpg?fit=800%2C533\")
Solar telescopes are a great way to safely observe the Sun up-close, but can be pricey!<\/figcaption><\/figure>There are also specialist solar telescopes<\/a>. The most popular and affordable of these is the Personal Solar Telescope, or PST, from Coronado.<\/p>This shows just one wavelength of light \u2013 the most active \u2013 that\u2019s given off by hydrogen atoms.<\/p>
This will reveal features such as prominences and filaments \u2013 solar activity that is invisible when projecting the view or using solar filters.<\/p>
Have a search online and you should be able to get your hands on a good selection of solar filters.<\/p>
Remember only to buy from reputable suppliers who are selling professionally-made products.<\/p>
Avoid buying any ‘homemade’ solar equipment.<\/p>
Safe solar-observing techniques<\/strong><\/h2>Solar observing is the one time that astronomy poses a real risk of physical injury. Here\u2019s how to do it safely…<\/p>
Solar Projection<\/strong><\/h2>![\"solar](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2012\/04\/solar-projection_IMG_9255-dc20bc7.jpg\")
A solar projection screen is a great way of viewing the Sun safely, and can also be used for eclipses.<\/figcaption><\/figure>All you need is a piece of white card, onto which you project the image of the Sun from your scope or binoculars.You could also fix another piece around the front end of the scope to create a shadow around the projection.<\/p>
This technique is easy to create at home. Read our guide on how to make a solar projection screen<\/a>.<\/p>Advantages:<\/strong> Good for eclipses and sunspots.<\/p>Cardboard sun projector<\/strong><\/h2>![\"Cardboard](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2012\/04\/Sun-Projector-Kit-894bca8.jpg\")
<\/figure>These kits are simply a small telescope and mirror that projects an image of the Sun onto a white screen on the inside of the box.<\/p>
Advantages:<\/strong> It will show much the same views as the solar projection setup \u2013 great if you don\u2019t have a scope.<\/p>Solar filters<\/strong><\/h2>![\"solar](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2012\/04\/solarfilter-4351731.jpg\")
<\/figure>These glass or film coverings fit completely over the light-gathering front end of the scope, stopping all heat and virtually all light from the Sun entering the scope.<\/p>
Advantages:<\/strong> Good for viewing sunspots and granulation.<\/p>Personal Solar Telescope<\/strong><\/h2>![\"Personal](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2012\/04\/coronado-PST-0178160.jpg\")
<\/figure>The Personal Solar Telescope (PST) is made to reveal one specific wavelength and can show much more than your naked eye will see with film or glass filters.<\/p>
Advantages:<\/strong> Good for prominences, active regions, filaments and faculae.<\/p>Features to observe on the Sun<\/strong><\/h2>So you’re set up and ready to safely observe the Sun. What can you expect to see?<\/p>
Prominences<\/strong><\/h3>![\"Solar](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2023\/01\/03.SolarProminenceAntonMatthews-9e9bb25.jpg\")
Solar prominence. Credit: Anton Matthews, Bristol, UK<\/figcaption><\/figure>A prominence is a dense cloud of material that can be seen just outside the bright photosphere of the Sun.The gas is created and held there by the Sun\u2019s vast, arching magnetic fields.<\/p>
Best seen with a PST.<\/strong><\/em><\/p>Sunspots<\/strong><\/h3>![\"Sunspots](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2020\/05\/White-light-sunspots-37b6cad.jpg\")
Sunspots as seen using a white-light filter; the dark centre is known as the umbra. Credit: Pete Lawrence<\/figcaption><\/figure>Sunspots are caused by immense magnetic fields.These reduce the temperature of regions of the photosphere producing dark spots.<\/p>
See them with solar projection, PST or solar filters.<\/strong><\/em><\/p>Filaments<\/strong><\/h3>![\"Solar](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/02\/filament_18022013_yellow_2-0034bdb.jpg\")
Solar filament 17-02-2013 by Andr\u00e9 van der Hoeven, HI-Ambacht, The Netherlands<\/figcaption><\/figure>A filament is the same as a prominence, except that whereas prominences are seen outside the Sun\u2019s disc, filaments are seen against the disc \u2013 which makes them a little harder to pick out.<\/p>
Best seen with a PST.<\/strong><\/em><\/p>Flares<\/strong><\/h3>![\"Solar](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2023\/06\/12-Our-Sun-Solar-Flare-X1-from-AR2994-in-Motion-4199360.jpg\")
Solar Flare X1 from AR2994 in \u2018Motion\u2019, by Miguel Claro, Dark Sky Alqueva region, \u00c9vora district, Portugal<\/figcaption><\/figure>Flares are the most explosive features on the Sun and are associated with sunspots.<\/p>
They are believed to be caused by sudden changes in the Sun\u2019s magnetic field.<\/p>
Best seen with a PST.<\/strong><\/em><\/p>View the Sun in different wavelengths<\/strong><\/h2>There are different ways you can safely observe the Sun, as different wavelengths reveal different features.<\/p>
With the right equipment, it is possible to isolate specific wavelengths of light coming from the Sun \u2013 white light, calcium K or hydrogen-alpha \u2013 at the same time as blocking the other wavelengths.<\/p>
Here we look at what these three different views will show you of the Sun\u2019s internal structure and features; things that would be otherwise hidden by our star\u2019s overwhelming brightness.<\/p>
White light<\/strong><\/h3>![\"white](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/03\/05-James-Robertson-In-the-heat-of-the-midday-sun-1524e3f.jpg\")
An image of the Sun in white light, captured by James Robertson from Somerset. James used a Canon EOS 750D DSLR camera and a Sky-Watcher Esprit 80 ED triplet refractor with Baader solar white light filter.(Credit: James Robertson)<\/figcaption><\/figure>When observing in white light you are actually viewing a range of wavelengths across the visual spectrum.<\/p>
This allows you to see a layer of the Sun called the photosphere, where you can observe familiar sunspots, the darker and cooler regions where magnetic field lines are concentrated.<\/p>
With their darker central umbra and lighter surrounding penumbra, sunspots are the easiest feature to see. Smaller dark spots without developed umbra and penumbra are known as pores.<\/p>
In active regions we can observe faculae: brighter patches best seen from an oblique angle near the limb of the Sun where limb darkening allows them to stand out easier.<\/p>
Through larger apertures and at higher magnifications polygonal granules are visible, which are giant convective cells of plasma.<\/p>
Solar transits, where an object passes in front of the Sun, can also be seen.<\/p>
Commonly these are birds or planes, but on rare occasions the International Space Station<\/a> will also pass over.<\/p>Any telescope can observe the Sun in white light by using a suitable front-mounted glass or solar film filter.<\/p>
Be sure to get these from a dedicated astronomy retailer rather than attempting to improvise a filter yourself \u2013 the safety of your eyes is paramount.<\/p>
A green or continuum filter at the eyepiece end will allow a higher contrast view or image to be achieved by reducing the effects of the poor daytime seeing.<\/p>
For the highest contrast view, a Herschel wedge used in conjunction with a continuum filter, an ultraviolet\/infrared-cut filter and a refractor is the best option.<\/p>
Imaging the Sun in white light<\/strong><\/h3>Imaging the Sun in white light is easy and a wide range of cameras can be used.<\/p>
With a dedicated solar filter over the front of your telescope, results can be captured and viewed instantly by holding a camera phone or compact camera afocal to the eyepiece, with a DSLR camera at prime focus or even by projecting the image of the Sun onto a white screen.<\/p>
The best results are achieved using a Herschel wedge and digital CCD camera, where many hundreds of individual frames are captured in video format.<\/p>
Using freely available software that can be downloaded from the internet, such as RegiStax or Autostakkert, the sharpest frames are automatically selected and digitally stacked into one final image with less noise and better quality than the individual frames.<\/p>
This can then be coloured to individual taste using freeware such as GIMP.<\/p>
Sunspots<\/strong><\/h3>Sunspots appear dark against the photosphere, often occurring in groups known as active regions. A typical sunspot shows a dark inner core called the umbra, and a lighter surrounding region called the penumbra. Sunspots appear dark because they are cooler than the surrounding photosphere.<\/p>![\"\"](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2017\/08\/white-light-sunspots-57ed71f.jpg\" "\\"\\"\/")
Sunspots seen on the Sun in white light. Credit: Pete Lawrence<\/figcaption><\/figure>Faculae<\/strong><\/h3>The limb- darkened edge of the Sun\u2019s disc provides excellent contrast for viewing faculae. These are magnetically affected regions where the Sun\u2019s \u2018surface\u2019 becomes more transparent, allowing you to see into the deeper, hotter areas below.<\/p>
Granulation<\/strong><\/h3>The Sun\u2019s visible surface, or photosphere, is covered in a fine pattern called solar granulation. This can be tricky to see and image as it\u2019s easily hidden by poor seeing. Granulation represents the tops of huge rising convective cells reaching the photosphere.<\/p>![\"\"](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2017\/08\/white-light-sun-granulation-copy-b821619.jpg\" "\\"\\"\/")
Granulation on the Sun seen in white light. Credit: Pete Lawrence<\/figcaption><\/figure>Limb darkening<\/strong><\/h3>When the Sun\u2019s disc is viewed through a white light filter, the centre appears brighter than the edge. This is called limb darkening and occurs because at the centre of the disc you can see deeper into hotter, brighter layers.<\/p>
Hydrogen-alpha<\/strong><\/h3>![\"hydrogen-alpha](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/03\/Hydrogen-alpha-sun-b12877a.jpg\")
Bill McSorley imaged the Sun in hydrogen-alpha from the Derbyshire Dales. Bill used a QHY5L-II colour planetary camera, a 2.7-inch TeleVue refractor, a Celestron altaz mount and Coronado hydrogen-alpha filters.Credit: Bill McSorley<\/figcaption><\/figure>Hydrogen-alpha gives the best all-round views of the Sun, being easy to see in the eyepiece and showing an ever-changing view of various features that never ceases to amaze: from flame-like prominences on the limb to long, snaking dark filaments that hover above the disc, both of which are clouds of plasma held aloft by intense magnetic fields.<\/p>
Again we are looking into the Sun\u2019s chromosphere in this wavelength, albeit at a slightly different temperature and height above the photosphere than calcium K.<\/p>
Sunspots and the bright plage around active regions are still visible, with solar flares noticeably brightening and then fading over a period of minutes to hours.<\/p>
In the best conditions a layer of spicules can be seen around the solar limb; a fine layer of dancing, hair-like jets of hot plasma that shoot out of the chromosphere.<\/p>
Hydrogen-alpha offers the largest choice of equipment available to suit all budgets, from front-mounted etalon filters that fit on existing refractors or compound telescopes used in conjunction with a blocking filter, to dedicated hydrogen-alpha telescopes or rear mounted filters that go before an eyepiece or camera.<\/p>
Options such as double stacking during processing provide higher contrast views.<\/p>
The different sizes of blocking filters can seem bewildering to a novice, so it is best to seek advice from your local astronomical society or dealer to see if you can try different options before buying.<\/p>
You should never observe the Sun with any optical apparatus that has not been fitted with a proper solar filter.<\/p>
Don\u2019t use sunglasses or layers of photographic film \u2013 it\u2019s just not worth the risk.<\/p>
We have numerous guides that might be of use to your solar observing, such as how to make a pinhole camera<\/a>, how to build a simple solar finder<\/a>, how to build a solar projection screen<\/a> and how to safely polar align an equatorial mount using the Sun<\/a>.<\/p> Many of the techniques described below can also be used to help you observe the next eclipse<\/a>.<\/p> There are numerous ways to safely observe the Sun, such as<\/p> We’ll cover each below.<\/p> Solar filters<\/strong> are a great way to safely observe the Sun, but they are very dense.<\/p> They have to be able to filter all visible wavelengths to a safe level, as well as blocking infrared and ultraviolet light: wavelengths that can cause permanent damage to the eyes.<\/p> You can also use eclipse glasses<\/a><\/strong>, with which you can safely get the same views. But make sure they are absolutely clean and scratch-free.<\/p> If they’ve been lying around your house for sometime, they may no longer be safe. Never take chances when attempting to observe the Sun.<\/p> For more advice, read our guide on how to make sure your eclipse glasses are safe<\/a>.<\/p> If you want to get more than just a safe, naked-eye view of the Sun you\u2019ll need something a bit more substantial than basic protection.<\/p> With a telescope or binoculars on a tripod, you can project the Sun\u2019s image onto a large piece of white card to see features on the photosphere (its visible surface).<\/p> The card is simply placed in front of the eyepiece where your eye would normally go.<\/p> If attempting this method, do not look directly down the eyepiece, and make sure your finders are covered.<\/p> This method is for indirect observation only.<\/p> And never leave your telescope pointed at the Sun unattended.<\/p> Once everything is set up, and after some focusing, you can easily see any sunspots<\/a>.<\/p> For more on this, read our guide on how to observe sunspots<\/a>.<\/p> You can also get safe solar views through reflectors and refractors by fitting a solar filter over the front, objective end of the telescope.<\/p> These cut out all of the ultraviolet and infrared radiation (heat) from the Sun and also 99.9% of its brightness, so the internal workings don\u2019t heat up.<\/p> Solar filters are made from materials such as aluminium-coated Mylar, or coated glass \u2013 but do get advice from a reputable dealer.<\/p> It\u2019s important never<\/em> to use a solar filter that screws into an eyepiece.<\/p> These are very dangerous because they sit at the point where the full power of the Sun is focused and could shatter and let in blinding sunlight.<\/p> There are also specialist solar telescopes<\/a>. The most popular and affordable of these is the Personal Solar Telescope, or PST, from Coronado.<\/p> This shows just one wavelength of light \u2013 the most active \u2013 that\u2019s given off by hydrogen atoms.<\/p> This will reveal features such as prominences and filaments \u2013 solar activity that is invisible when projecting the view or using solar filters.<\/p> Have a search online and you should be able to get your hands on a good selection of solar filters.<\/p> Remember only to buy from reputable suppliers who are selling professionally-made products.<\/p> Avoid buying any ‘homemade’ solar equipment.<\/p> Solar observing is the one time that astronomy poses a real risk of physical injury. Here\u2019s how to do it safely…<\/p> All you need is a piece of white card, onto which you project the image of the Sun from your scope or binoculars.You could also fix another piece around the front end of the scope to create a shadow around the projection.<\/p> This technique is easy to create at home. Read our guide on how to make a solar projection screen<\/a>.<\/p> Advantages:<\/strong> Good for eclipses and sunspots.<\/p> These kits are simply a small telescope and mirror that projects an image of the Sun onto a white screen on the inside of the box.<\/p> Advantages:<\/strong> It will show much the same views as the solar projection setup \u2013 great if you don\u2019t have a scope.<\/p> These glass or film coverings fit completely over the light-gathering front end of the scope, stopping all heat and virtually all light from the Sun entering the scope.<\/p> Advantages:<\/strong> Good for viewing sunspots and granulation.<\/p> The Personal Solar Telescope (PST) is made to reveal one specific wavelength and can show much more than your naked eye will see with film or glass filters.<\/p> Advantages:<\/strong> Good for prominences, active regions, filaments and faculae.<\/p> So you’re set up and ready to safely observe the Sun. What can you expect to see?<\/p> A prominence is a dense cloud of material that can be seen just outside the bright photosphere of the Sun.The gas is created and held there by the Sun\u2019s vast, arching magnetic fields.<\/p> Best seen with a PST.<\/strong><\/em><\/p> Sunspots are caused by immense magnetic fields.These reduce the temperature of regions of the photosphere producing dark spots.<\/p> See them with solar projection, PST or solar filters.<\/strong><\/em><\/p> A filament is the same as a prominence, except that whereas prominences are seen outside the Sun\u2019s disc, filaments are seen against the disc \u2013 which makes them a little harder to pick out.<\/p> Best seen with a PST.<\/strong><\/em><\/p> Flares are the most explosive features on the Sun and are associated with sunspots.<\/p> They are believed to be caused by sudden changes in the Sun\u2019s magnetic field.<\/p> Best seen with a PST.<\/strong><\/em><\/p> There are different ways you can safely observe the Sun, as different wavelengths reveal different features.<\/p> With the right equipment, it is possible to isolate specific wavelengths of light coming from the Sun \u2013 white light, calcium K or hydrogen-alpha \u2013 at the same time as blocking the other wavelengths.<\/p> Here we look at what these three different views will show you of the Sun\u2019s internal structure and features; things that would be otherwise hidden by our star\u2019s overwhelming brightness.<\/p> When observing in white light you are actually viewing a range of wavelengths across the visual spectrum.<\/p> This allows you to see a layer of the Sun called the photosphere, where you can observe familiar sunspots, the darker and cooler regions where magnetic field lines are concentrated.<\/p> With their darker central umbra and lighter surrounding penumbra, sunspots are the easiest feature to see. Smaller dark spots without developed umbra and penumbra are known as pores.<\/p> In active regions we can observe faculae: brighter patches best seen from an oblique angle near the limb of the Sun where limb darkening allows them to stand out easier.<\/p> Through larger apertures and at higher magnifications polygonal granules are visible, which are giant convective cells of plasma.<\/p> Solar transits, where an object passes in front of the Sun, can also be seen.<\/p> Commonly these are birds or planes, but on rare occasions the International Space Station<\/a> will also pass over.<\/p> Any telescope can observe the Sun in white light by using a suitable front-mounted glass or solar film filter.<\/p> Be sure to get these from a dedicated astronomy retailer rather than attempting to improvise a filter yourself \u2013 the safety of your eyes is paramount.<\/p> A green or continuum filter at the eyepiece end will allow a higher contrast view or image to be achieved by reducing the effects of the poor daytime seeing.<\/p> For the highest contrast view, a Herschel wedge used in conjunction with a continuum filter, an ultraviolet\/infrared-cut filter and a refractor is the best option.<\/p> Imaging the Sun in white light is easy and a wide range of cameras can be used.<\/p> With a dedicated solar filter over the front of your telescope, results can be captured and viewed instantly by holding a camera phone or compact camera afocal to the eyepiece, with a DSLR camera at prime focus or even by projecting the image of the Sun onto a white screen.<\/p> The best results are achieved using a Herschel wedge and digital CCD camera, where many hundreds of individual frames are captured in video format.<\/p> Using freely available software that can be downloaded from the internet, such as RegiStax or Autostakkert, the sharpest frames are automatically selected and digitally stacked into one final image with less noise and better quality than the individual frames.<\/p> This can then be coloured to individual taste using freeware such as GIMP.<\/p> Sunspots appear dark against the photosphere, often occurring in groups known as active regions. A typical sunspot shows a dark inner core called the umbra, and a lighter surrounding region called the penumbra. Sunspots appear dark because they are cooler than the surrounding photosphere.<\/p> The limb- darkened edge of the Sun\u2019s disc provides excellent contrast for viewing faculae. These are magnetically affected regions where the Sun\u2019s \u2018surface\u2019 becomes more transparent, allowing you to see into the deeper, hotter areas below.<\/p> The Sun\u2019s visible surface, or photosphere, is covered in a fine pattern called solar granulation. This can be tricky to see and image as it\u2019s easily hidden by poor seeing. Granulation represents the tops of huge rising convective cells reaching the photosphere.<\/p> When the Sun\u2019s disc is viewed through a white light filter, the centre appears brighter than the edge. This is called limb darkening and occurs because at the centre of the disc you can see deeper into hotter, brighter layers.<\/p> Hydrogen-alpha gives the best all-round views of the Sun, being easy to see in the eyepiece and showing an ever-changing view of various features that never ceases to amaze: from flame-like prominences on the limb to long, snaking dark filaments that hover above the disc, both of which are clouds of plasma held aloft by intense magnetic fields.<\/p> Again we are looking into the Sun\u2019s chromosphere in this wavelength, albeit at a slightly different temperature and height above the photosphere than calcium K.<\/p> Sunspots and the bright plage around active regions are still visible, with solar flares noticeably brightening and then fading over a period of minutes to hours.<\/p> In the best conditions a layer of spicules can be seen around the solar limb; a fine layer of dancing, hair-like jets of hot plasma that shoot out of the chromosphere.<\/p> Hydrogen-alpha offers the largest choice of equipment available to suit all budgets, from front-mounted etalon filters that fit on existing refractors or compound telescopes used in conjunction with a blocking filter, to dedicated hydrogen-alpha telescopes or rear mounted filters that go before an eyepiece or camera.<\/p> Options such as double stacking during processing provide higher contrast views.<\/p> The different sizes of blocking filters can seem bewildering to a novice, so it is best to seek advice from your local astronomical society or dealer to see if you can try different options before buying.<\/p>Equipment for safely observing the Sun<\/strong><\/h2>
Safe solar-observing techniques<\/strong><\/h2>
Solar Projection<\/strong><\/h2>
Cardboard sun projector<\/strong><\/h2>
<\/figure>Solar filters<\/strong><\/h2>
<\/figure>Personal Solar Telescope<\/strong><\/h2>
<\/figure>Features to observe on the Sun<\/strong><\/h2>
Prominences<\/strong><\/h3>
Sunspots<\/strong><\/h3>
Filaments<\/strong><\/h3>
Flares<\/strong><\/h3>
View the Sun in different wavelengths<\/strong><\/h2>
White light<\/strong><\/h3>
Imaging the Sun in white light<\/strong><\/h3>
Sunspots<\/strong><\/h3>
Faculae<\/strong><\/h3>
Granulation<\/strong><\/h3>
Limb darkening<\/strong><\/h3>
Hydrogen-alpha<\/strong><\/h3>
![\"Spicules](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2017\/08\/Hydrogen-alpha-spicules-bbba56c.jpg\" "\\"\\"\/")
![\"Dynamic](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2017\/08\/Sun-hydrogen-alpha-dynamic-brightening-2eb94e1.jpg\" "\\"\\"\/")
![\"calcium](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2019\/03\/Calcium-K-c3ecc98.jpg\" "\\"\\"\/")