Welcome to the new layout!

Over the past summer a lot has changed in the layout.

The forecast section has been separated into distinct views that allow you to focus on current Solar Wind conditions as well as Planning ahead.

A great new addition is the "Charts" section, showing you an intuitive chart of the current Solar Wind conditions.

Please go ahead and explore all the new features, there are quite a few!

If you want to switch back to the view you have gotten used to in the past, please go to the settings and switch the "Layout" from "New" back to "Old". The old layout will remain available for now.

Current Solar Wind

Current Solar Wind

Time
ETA
Energy
Speed
Bz
Density
Darkness
07:50
08:22
57
640
−2.5
3.0
07:55
08:27
57
640
−4.0
2.5
08:00
08:33
58
640
−5.0
1.5
08:05
08:38
58
640
−4.5
2.0
08:10
08:42
59
640
−3.0
1.5
08:15
08:47
60
640
−2.5
1.5
08:20
08:52
59
660
−0.5
1.5
08:25
08:57
57
660
−0.5
1.5
08:30
09:01
55
680
+1.0
1.5
08:35
09:06
53
660
−0.5
1.5
08:40
09:11
51
640
−4.5
1.5
08:45
09:16
51
660
−4.5
1.5
08:50
09:21
53
640
−4.5
1.5
08:55
09:27
56
640
−5.0
1.5
09:00
09:32
58
640
−5.0
1.5
09:05
09:37
59
640
−4.5
1.5
09:10
09:43
59
620
−3.5
1.5
09:15
09:48
0
620
−2.0
1.5
09:20
No data available yet...

3-Day Kp Forecast

03:00 Kp 3⅔ 28 Nov, Fri
06:00 Kp 4⅔ G1 Storm
09:00 Kp 3⅔
12:00 Kp 3⅓
15:00 Kp 3⅓
18:00 Kp 3⅔
20:53 Aurora Optimum
21:00 Kp 3⅔
00:00 Kp 2⅔
03:00 Kp 2⅓
06:00 Kp 2⅔
09:00 Kp 2⅔
12:00 Kp 2⅔ 29 Nov, Sat
15:00 Kp 2⅔
18:00 Kp 2⅔
20:53 Aurora Optimum
21:00 Kp 2⅔
00:00 Kp 2⅔
03:00 Kp 2⅔
06:00 Kp 2⅓
09:00 Kp 2
12:00 Kp 2 30 Nov, Sun
15:00 Kp 1⅔
18:00 Kp 2
20:54 Aurora Optimum
21:00 Kp 2
20:54 Aurora Optimum

Sun

22:26 Solar Midnight 27 Nov, Thu
06:25 Stars Disappear
09:36 Sunrise
10:26 Solar Noon 28 Nov, Fri
11:16 Sunset
14:26 Stars Appear
22:26 Solar Midnight
06:28 Stars Disappear
09:47 Sunrise
10:26 Solar Noon 29 Nov, Sat
11:06 Sunset
14:25 Stars Appear
22:26 Solar Midnight
06:31 Stars Disappear
10:01 Sunrise
10:27 Solar Noon 30 Nov, Sun
10:52 Sunset
14:23 Stars Appear
22:27 Solar Midnight
06:33 Stars Disappear
10:27 Solar Noon 01 Dec, Mon
12:00 Polar Night
14:21 Stars Appear
22:27 Solar Midnight

Moon

03:00 50% 28 Nov, Fri
06:00 51%
09:00 53%
12:00 54%
12:17 Moonrise
15:00 55%
18:00 57%
21:00 58%
22:25 Moonset
00:00 60%
03:00 61%
06:00 62%
09:00 64%
11:53 Moonrise
12:00 65% 29 Nov, Sat
15:00 66%
18:00 68%
21:00 69%
00:00 70%
00:30 Moonset
03:00 72%
06:00 73%
09:00 74%
11:29 Moonrise
12:00 75% 30 Nov, Sun
15:00 77%
18:00 78%
21:00 79%
02:39 Moonset
11:03 Moonrise

Images

Shows the probability of Aurora for the given time. Please check the scale in the image to see what the colors mean.
View of the Sun's Coronal Holes when the currently arriving Solar Wind started travelling through space (at a speed of 649km/s).View of the Sun's Coronal Holes when the currently arriving Solar Wind started travelling through space (at a speed of 649km/s).
View of the Sun's Sunspots when the currently arriving Solar Wind started travelling through space (at a speed of 649km/s).View of the Sun's Sunspots when the currently arriving Solar Wind started travelling through space (at a speed of 649km/s).

Weather

External Providers

Please note the following:

All links below point to external providers of weather services. Please do not use this feature if this raises privacy concerns for you.

When you click a link below you will send your currently selected location to that provider. A link will open in a browser or in the own app of the provider (if supported and installed).

Links are sorted alphabetically and do not represent a preferred order.

Clear Outside (69.07N 20.76E)
Ventusky - cloud cover (69.07N 20.76E)
Windy.com - cloud cover (69.07N 20.76E)

Timezone & Location

Please set a location and select the correct timezone. By doing so, all times will be converted and you will not have to do any conversions yourself.

Change to:
within 10km radius is sufficient
Timezone:

Info

Getting Started

Colors

One major feature of this app is that it has a different color scheme as compared to most others. A red color indicates unfavourable conditions for seeing Auroras. The colors will shift to orange, yellow, green and turquoise as the conditions improve.

  • Low (bad for seeing Auroras)
  • Medium
  • High
  • Very High
  • Extreme (good for seeing Auroras)

Read up on the Activity Levels below to find out more about the colors and their meaning.

The color scale is also located at the bottom of the forecast.

Location

Please start with selecting your approximate Location and timezone according to where you are planning to view the Aurora's. Feel free to change the location when your plans change.

By doing so, all times will be shown in the chosen timezone and you will not have to do any conversions yourself. In addition, a number of features will be able to display the correct information.

Settings

Have a look at the Settings and possible Aurora Scout Premium licensing options. A free trial is possible.

If you already have Aurora Scout Premium you can turn on the Premium features.

Forecast

The main feature of this app is to provide you with a comprehensive Aurora Forecast which should support you in your search for the Auroras. The data is provided by NASA (US space agency), summarized in 5 minute slots, represented in a table or chart.

Further Reading

The amount of information that can help you understand the Auroras and what it takes to successfully see them is extensive. Please let any of the topics below be a starting point to become familiar with the different aspects involved.

Terminology

Solar Wind

Stream of magnetically charged particles originating from the Sun.

Aurora

Aurora Borealis (Northern Lights) and Aurora Australis (Southern Lights) are a natural phenomenon. As the Solar Wind enters Earth's upper atmosphere it collides with Oxygen atoms and Nitrogen molecules. As a result of these collisions the Solar Wind looses energy and makes the atoms and molecules emit light.

It is Mother Nature's own laser show.

Kp

The "Planetary K-index" is the most well-known number in relation to the Auroras. In it's most common use case it functions as a measure for the estimated disturbance to Earth's magentic field caused by the Solar Wind, relevant for the whole planet.

However, it is not as accurate at predicting the Aurora activity as you might think. First and foremost it is a forecast. As the inputs for forecasts change over time so will the outcome.

Sometimes predicted Kp activity arrives earlier or much later than expected, this difference can vary from hours to days even.

The Kp-index comes from the standard 3-day NASA forecast and is presented in 3 hour time slots.

Further reading: Wikipedia - K-index

ETA (Estimated Time of Arrival)

The estimated time of arrival of the Solar Wind at Earth is based on the measured Solar Wind's speed. It is done by multiple NASA satellites that measure the characteristics of the Solar Wind located at a distance of 1.5 million kilometers from Earth (1% of the total Earth-Sun distance).

Because the ETA is calculated as the time it takes to cover a distance from the satellites to Earth there is no accounting for additional things that need to happen before the Aurora becomes visible. Sometimes changes happen within 5 minutes of the ETA and sometimes it can take much longer (over one hour), patience is a virtue in most cases.

Speed of the Solar Wind (km/s)

The speed at which the Solar Wind particles travel.

Bz

Orientation of the magnetic field inside the Solar Wind in the direction that it has the most interaction with Earth's magnetic field. When Bz is negative it is attracted to Earth's magnetic field, if it is positive it will repel. Greater attraction will allow easier entry of the Solar Wind into the atmosphere triggering better Aurora's.

Density (pcc)

The density of the Solar Wind is determined by the number of protons per cubic centimeter (protons ccm / pcc). The more particles the more collisions there will be in the upper atmosphere and the brighter the Aurora's will potentially become.

Energy (GW)

The amount of energy that the Solar Wind is able to bring into the upper atmosphere. High energy levels are associated with vibrant colors, fast movement as well as better visibility away from the poles towards the equator.

Depending on your location the amount for the Northern or Southern hemisphere is shown.

Clock Angle and Clock Arm Length (IMF)

By calculating the angle and length of the By and Bz arm you get a better understanding of how well magnetic field inside the Solar Wind will be able to interact with Earth's magnetic field. A favorable angle (150° ... 210°) and long enough arm are favorable conditions.

Flux

The amount of protons (*108) per cm2 per second that are passing.

Pr

With how much pressure is the Solar Wind pushing against Earth's magnetic field.

Satellite

Provides information which satellite is currently used to provide data (ACE or DSCOVR).

As both satellites have a different position in the L1 Lagrange point and differently calibrated instuments they provide two data feeds with (slightly) different numbers.

At the bottom of the nowcast it shows which satellite(s) provided the data.

Darkness

The darker the night the easier it is to observe Aurora's. In order for the Aurora to be visible it will have to be stronger than a number of different sources of light pollution:

  • Sunlight / Twilight
  • Moonlight, especially a full moon can really brighten the night sky
  • Human light pollition (street lights for example)

Geomagnetic Pole

Location of Earth's magnetic North and South pole as seen from very far away (think in terms of approaching Solar Wind).

Auroral Oval

Oval shaped area around the Geomagnetic Poles where the Solar Wind enters Earth's atmosphere and the Auroras can be seen.

The size and shape of the Auroral Oval are depending on the characteristics of the Solar Wind.

Aurora Optimum / Geomagnetic Midnight

The time when you, at your current location, the closest Geomagnetic Pole and the Sun are aligned. At this moment in the night the Auroral Oval will be the furthest away from the Poles and appear at it's highest point in the sky, making it easier to observe.

Distance to Geomagnetic Pole

Under low-activity circumstances the Auroral Oval can be seen overhead at Geomagnetic Midnight at a distance of roughly 2500km from the Geomagnetic Pole. The further away you position yourself the lower the Aurora will appear on the horizon. As you move further away it will eventually disappear behind the horizon.

Twilight transitions

Being able to estimate how dark the night sky will be at a certain time helps to assess the viewing potential. Twilight transitions give you an indication of how dark it is outside.

Moon

Both the level of illumination (0% = new moon, 100% = full moon), the angle above/below the horizon as well as it's place in the sky should help with assessing it's influence on how much brighter the sky will be due to the moonlight. indicates a visible moon, while means it will be below the horizon.

Cloud Cover

As the lowest point of the Aurora is at roughly 80km altitude and the highest clouds that can obscure seeing them can be up to 10km, having a clear, star filled sky is crucial to see the Aurora.

Clouds are usually your biggest challenge...

Observing Aurora's

Surface events on the Sun will typically need 2 to 5 days before they can reach Earth, assuming they were pointed in our direction to begin with.

The Solar Wind passing the satellites in L1 (Lagrange point) will most likely affect Earth's magnetic field and enter the atmosphere. Measured Solar Wind will usually take about an hour to reach Earth and will influence how well the Aurora can be seen.

Aurora's can appear in both the Northern and Southern hemispheres and will be similar but not identical.

In order for you to see the Aurora you will need to be able to see stars. Local weather is not affected by the Aurora's.

Activity Levels

Most information about the solar wind comes from warning systems. In a warning system green would indicate everything is calm and red warns people to be on high alert. When chasing the Aurora the more activity the better. So the traditional color approach does not match the experience. Aurora Scout has reversed and normalized the colors so they fit the situation better.

In order to more easily judge the numbers they have been colored according to their relative activity level. The levels are:

  • No Data (⬤)
  • Low (bad for seeing Auroras)
  • Medium
  • High
  • Very High
  • Extreme (good for seeing Auroras)

The probability of seeing Auroras is always a combination of many factors. A single bad () number does not mean it is impossible to see anything, it just becomes harder. A single good ( or ) number does not mean you will absolutely see Auroras, it just becomes easier. The quality of the Solar Wind (mix of colors), your location, sky darkness as well as current weather conditions will ultimately determine if you will see the Aurora.

Each level is based on the measured values according to the table below.

Solar Wind Speed kilometers / second (km/s)
< 300 < 400 < 500 < 600 > 600
Speed at which the Solar Wind is approaching Earth.
Bz nano Tesla (nT)
> 2.2 2.2 ... 0 0 ... −5 −5 ... −10 < −10
Component of the Interplanetary Magnetic Field (IMF) parallel to Earth's magnetic field.
Clock Arm Length nano Tesla (nT)
< 5 < 10 < 15 < 20 > 20
Strength of the Interplanetary Magnetic Field (IMF) arriving at Earth, vector of By and Bz.
Clock Angle Degrees from South
S ± 180° S ± 90° S ± 60° S ± 30° S ± 15°
Angle of By and Bz in the Interplanetary Magnetic Field (IMF) arriving at Earth.
Density protons / cm3 (pcc)
< 5 < 10 < 15 < 20 > 20
Measured Density of the Solar Wind.
Energy Gigawatt (GW)
< 10 < 20 < 50 < 100 > 100
Estimated amount of Energy the Solar Wind is able to bring into the upper atmosphere.
Darkness
Daylight Strong Twilight Strong Moon Weak Moon Dark Sky
Darkness of the sky, or is usually dark enough.
Flux protons*108 / cm2 / s
< 2.5 < 5 < 10 < 20 > 20
Amount of Protons passing per second.
Available in Premium when expanding a 5-minute slot.
Pressure nano Pascal (nPa)
< 1 < 2 < 4 < 8 > 8
Pressure the Solar Wind is exerting on Earth's magnetic field.
Available in Premium when expanding a 5-minute slot.
Aurora Scout Basic

Reduces accuracy by rounding the provided numbers.

  • Speed: down to the nearest mulitiple of 20 km/s
  • Bz: nearest 0.5nT
  • Density: down to the nearest 0.5 pcc
Aurora Scout Premium

Has full accuracy and adds Clock Arm Length, Clock Angle, Flux and Pressure to the dataset.

Time

Please select the correct timezone on the Location tab. By doing so all times will be shown in the selected (local) timezone. When no selection is made UTC is used and you will have to convert everything yourself.

To more easily see what is happening right now, the current moment is highlighted in purple.

Abnormal Solar Wind arrival times are marked in blue. This can happen if the Solar Wind speed varies within a relatively short amount of time, causing it to overtake what has already passed previously.

Rows that are semi-transparent contain incomplete measurements. Not all required data has arrived yet and the information is likely to still change.

Types of Information

When looking for Aurora's there are three types of information you will need to be aware of and combine to increase your chances:

  • Forecasts
  • Nowcast / Remote observations
  • Own observations

Learning to combine all three different information types will help you better understand how each type interacts with the others and gives you the ability to make a better estimate of what to expect.

Forecasts

A forecast is an indication of what might happen but it has a high degree of inaccuracy. Think of long-term weather or 27-day Kp forecasts. Most of these are based on sophisticated computer models and will be re-evaluated a certain number of times per day. Each time the information that is being put into these models will be slightly different with possibly vastly different outcomes as a result.

The further away in time the less accurate they become. Expect frequent changes.

Nowcast / Remote observations

This information comes from direct observations from a distance. Think of satellite images of the cloud cover or satellite measurements of the current Solar Wind characteristics.

The time it takes before the remotely observed events reach you is relatively short and the chance of something changing drastically is limited. Making it more reliable than forecasts.

Remote observations will also enable you to verify the accuracy of forecasts.

Own observations

Last but not least are your own observations in the field. Does the cloud cover match the forecast? In which direction are they moving and does this match your expectations from looking at satellite images? Does the Aurora activity match what you were expecting based on the Kp forecast or the nowcast information?

Sources & Further reading

Aurora Scout

AuroraScout.comOur main website with additional information.

Aurora Scout Desktop AppDesktop version of this app.

Information & News

SpaceWeather.comUpdates daily and always has very interesting news items.

Wikipedia - SunGreat place to start reading about the source of it all.

Useful Apps

Aurora Forecast 3DVisualizes the auroral oval in a 3D environment that can really help you understand the scope and interaction better (Desktop / Android / iOS).

Clear Outside7-day hourly cloud & weather forecasts. Designed by astronomers for astronomers.

StellariumFor figuring out which star is which.

Time&Date - MoonCheck the amount of moonlight ahead of time.

Topo GPSHigh quality topographic maps and navigation in the field.

The Photographer's EphemerisChecking and planning locations.

VentuskyGlobal weather maps, including cloud covers.

Windy.comGlobal weather maps, including cloud covers.

Interesting Video's

How Northern Lights are formedBy the University of Oslo.

Tourism & Education

TaigaTravel

Wonder Seekers

Data feeds and Images

NOAA.govBig thanks to NOAA and NASA for making their satellite data and images available (HMIIC, 0193, ENLIL, Ovation).

SOHOCorona Graph Images are courtesy of SOHO/LASCO consortium. SOHO is a project of international cooperation between ESA and NASA.

Licenses

chartjs.orgUsing chartjs.org components (released under the MIT License) for creating charts.

About

Aurora Scout

Preparation is everything in your search for Northern Lights.

Whether you have never seen the Aurora or are a seasoned expert, one thing is for sure: Northern Lights will never get off your bucket list! Once you experience their magic you will want to spend more nights outside in search of this spectacular ever changing natural phenomenon.

See this app as the Swiss army knife for Northern Lights hunting. It tries to bundle as much relevant information as possible while keeping the interface compact and dark enough to use under extreme conditions. The last thing you want to do is take your gloves off at -40° in order to scroll back and forth through large amounts of data or lose your night vision because your screen lights up like a Christmas tree.

The app is intended for anyone interested in catching a good display and serves beginners, experienced enthusiasts as well as professional guides.

Features
BasicPremium Appearance Easy to understand colors (red=bad, green=good) Dark interface (preserving much of your night vision) Everything in local time!
No more brain breaking conversions Science & Terminology explained No advertisements or hidden monitization Solar Wind Current Charts (accuracy)5 min.1 min. Current Numbers (accuracy)roundedfull Numbers History (ascending: period)~90 min.~90 min. Numbers History (descending: period)~2 h. Data reload - automatic (frequency)5 min.2 min. Data reload - manual (wait)2 min.30 sec. Clear indication of arrival time (ETA) Standard data
Hemispheric Energy, Speed, Bz, Density Extended data
IMF angle & strength, Bx, By, Bt, Pressure and Flux IMF Chart
-Bt / Bz / Bt, Clock Angle, Clock Arm Reverse Bz Chart Scales Chart History (4h, 12h and 24h) Sky darkness estimation (location based) ETA in minutes Solar Wind travel time Active satellite for real-time data Timelines 3-day Kp forecast Sunrise & Sunset (location based) Twilight transitions (location based) Moonrise & Moonset (location based) Moon visibility & illumination % (location based) Moon angle and direction (location based) Images Zoom in Oval, Coronal Holes, Sunspots
Single image relative to current Solar Wind ENLIL forecast & nowcast Scroll through time Play images sequentially Indication of arrival time (when scrolling) Other Manual location selection
Good for privacy and planning GPS based location selection Works anywhere on the planet Links to weather services (for current location)
Disclaimer

The application is provided "as is" and no claims can be made in relation to using it or the information provided.

Please be aware of the environment you are in while searching for the Northern Lights. Nature can be both beautiful and relentless, especially in winter, so please tread carefully and do not take unnecessary risks!

Privacy Policy

Our servers only collect standard metrics that are required for servicing requests (like your public IP for example) and do not relay any data to third parties. Your location data is not logged or stored on our systems.

By using the Location tab you will load third party components from Mapbox (please find their privacy policy here).

By explicitly opening a link on the   Weather tab your location will be forwarded to the selected provider and you will have to read up on their respected privacy policy.

This app has no advertisements and is only monetized by selling Premium Licenses (see Settings). Your support is much appreciated.

Location Data

The location and timezone you set on the Location tab will be used by our servers to provide you with relevant position-based information as well as show all times in your selected timezone.

Determining your current location only happens when you click the "use my current location" icon ().

Because you can select your location manually you have full control over it's accuracy. Please keep in mind you do not have to be exact in setting your location. Anything within a 10km radius should work equally well.

Cookies

In order for the app to function correctly we use cookies to relay information between app (instances) and server.

First party cookies:

  • Interface, 30 days (topic, appMode)
  • Location, 30 days (latitude, longitude)
  • License, 1 day after expiry (license)
  • Localisation, 30 days (timezone, timezoneOffset)

Third party cookies: none

Settings

Appearance

Layout

Licensing

Aurora Scout Premium

By purchasing a Premium license you will gain access to all features in this App.

Please read more about all Premium features at: Info → About → Aurora Scout.

Thank you for your support!

Free Premium Trial
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License for Desktop

If you have Aurora Scout Premium you can share it's Premium features with a Desktop version so you benefit from the same features on both platforms.

Please open your Mobile App.

Go to: "Settings" → "License for Desktop" → "Approve License for Desktop".

Fill out the code provided below to get same features as the App.

Version 0.3.4