Diese Übersetzung ist unvollständig - Bitte helfen Sie uns, übersetzen diese Webseite und kontaktieren Sie uns

The Kp-index

The Kp-index is the global geomagnetic activity index that is based on 3-hour measurements from ground-based magnetometers around the world. Each station is calibrated according to its latitude and reports a certain K-indice depening on the geomagnetic activity measured at the location of the magnetometer. The K-index itself is a three hour long quasi-logarithmic local index of the geomagnetic activity at the given location and time compared to a calm day curve. A magnetometer measures the maximum deviation of the horizontal component of the magnetic field at its location and reports this. The global Kp-index is then determined with an algorithm that puts the reported K-values of every station together. The Kp-index ranges from 0 to 9 where a value of 0 means that there is very little geomagnetic activity and a value of 9 means extreme geomagnetic storming.

The Estimated 3-hour Planetary Kp-index

The Estimated 3-hour Planetary Kp-index is a preliminary Kp-index derived at the NOAA Space Weather Prediction Center using minute by minute data from a number of ground-based magnetometers that relay data in near-real time. These observatories are located in the United States, Canada, the United Kingdom, Germany and Australia.

The Estimated 3-hour Planetary Kp-index gives us a quick indication of the strongest observed geomagnetic activity over a 3-hour period. These periods are: 0000-0300 UTC, 0300-0600 UTC, etc. The maximum positive and negative deviations during the 3-hour period are added together to determine the total maximum fluctuation. These maximum deviations may occur anytime during the 3-hour period. During periods with high geomagnetic activity, the NOAA Space Weather Prediction Center will send out alerts based on this near-real time minute by minute data as soon as a certain alert threshold (Kp4 or higher) has been reached. The image below shows a plot of the Estimated 3-hour Planetary Kp-index from October 2003 with 3 days of intense geomagnetic storming.

Preliminary Kp plot

The table below shows you the values used by The Estimated 3-hour Planetary Kp-index ranging from Kp=0 to Kp=9. Also indicated which G-scale a certain Kp-value represents, the approximate boundary of the auroral oval at local midnight for a specific Kp-value, a description of the auroral activity for a specific Kp-value and a rogue estimate on how often a certain Kp-value occurs during one solar cycle.

Kp G-scale Geomagnetic latitude Auroral activity Average frequency
0 G0 66.5° or higher Quiet
1 G0 64.5° Quiet
2 G0 62.4° Quiet
3 G0 60.4° Unsettled
4 G0 58.3° Active
5 G1 56.3° Minor storm 1700 per cycle (900 days per cycle)
6 G2 54.2° Moderate storm 600 per cycle (360 days per cycle)
7 G3 52.2° Strong storm 200 per cycle (130 days per cycle)
8 G4 50.1° Severe storm 100 per cycle (60 days per cycle)
9 G5 48.1° or lower Extreme storm 4 per cycle (4 days per cycle)

The Kp-index gauge on the front page of this website uses the Estimated Planetary K-index which is provided by the NOAA SWPC. It is updated after every 3-hour period with the most recent reported Kp-value or during times of high auroral activity it is updated at the same time as the NOAA SWPC issues an alert that a certain threshold has been reached.

The finalized Kp-index

The finalized Kp-index comes from the GFZ in Potsdam, Germany and is updated twice a month. These are the official, finalized Kp-values for scientific research and archive purposes. The finalized Kp-index is slightly different then the preliminary Kp-index. Unlike the preliminary Kp-index, the finalized Kp data is expressed in a scale of thirds and has 28 values were the preliminary Kp-index only has 10 values.

The U.S. Air Force Weather Agency Wing Kp model also uses this scale with 28 values but support for this model was discountinued in June 2018 by the NOAA SWPC and it can no longer be found on our website.

The table below shows the values that both the finalized Kp-index and the Wing Kp-index work with. This Kp-index works with 28 values instead of 10 values that the preliminary Kp-index works with.

Kp Kp in decimals G-scale Auroral activity
0o 0,00 G0 Quiet
0+ 0,33 G0 Quiet
1- 0,67 G0 Quiet
1o 1,00 G0 Quiet
1+ 1,33 G0 Quiet
2- 1,67 G0 Quiet
2o 2,00 G0 Quiet
2+ 2,33 G0 Quiet
3- 2,67 G0 Unsettled
3o 3,00 G0 Unsettled
3+ 3,33 G0 Unsettled
4- 3,67 G0 Active
4o 4,00 G0 Active
4+ 4,33 G0 Active
5- 4,67 G1 Minor storm
5o 5,00 G1 Minor storm
5+ 5,33 G1 Minor storm
6- 5,67 G2 Moderate storm
6o 6,00 G2 Moderate storm
6+ 6,33 G2 Moderate storm
7- 6,67 G3 Strong storm
7o 7,00 G3 Strong storm
7+ 7,33 G3 Strong storm
8- 7,67 G4 Severe storm
8o 8,00 G4 Severe storm
8+ 8,33 G4 Severe storm
9- 8,67 G4 Severe storm
9o 9,00 G5 Extreme storm

G-scale

NOAA uses a five-level system called the G-scale, to indicate the severity of both observed and predicted geomagnetic activity. This scale is used to give a quick indication of the severity of a geomagnetic storm. This scale ranges from G1 to G5, with G1 being the lowest level and G5 being the highest level. Conditions below storm level are labelled as G0 but this value is not commonly used. Every G-level has a certain Kp-value associated with it. This ranges from G1 for a Kp-value of 5 to G5 for a Kp-value of 9. We often use this G-scale on the website so it’s wise to familiarize yourself with it. The table below will help you with that.

G-scale Kp Auroral activity Average frequency
G0 4 and lower Below storm
G1 5 Minor storm 1700 per cycle (900 days per cycle)
G2 6 Moderate storm 600 per cycle (360 days per cycle)
G3 7 Strong storm 200 per cycle (130 days per cycle)
G4 8 Severe storm 100 per cycle (60 days per cycle)
G5 9 Extreme storm 4 per cycle (4 days per cycle)

What Kp-value do I need to see auroras on my location?

Any location on the high latitudes will be able to see auroras with a Kp of 4. For any location on the middle latitudes a Kp-value of 7 is needed. The low latitudes need Kp-values of 8 or 9. The Kp-value that you need of course depends on where you are located on Earth. We made a handy list which is a good guide for what Kp-value you need for any given location within the reach of the auroral ovals.

Important! Note that the locations below give you a reasonable chance to see auroras for the given Kp-index provided local viewing conditions are good. This includes but is not limited to: a clear sight towards the northern or southern horizon, no clouds, no light pollution and complete darkness.

Kp Visible from
0

North America:
Barrow (AK, USA) Yellowknife (NT, Canada) Gillam (MB, Canada) Nuuk (Greenland)

Europe:
Reykjavik (Iceland) Tromsø (Norway) Inari (Finland) Kirkenes (Norway) Murmansk (Russia)

1

North America:
Fairbanks (AK, USA) Whitehorse (YT, Canada)

Europe:
Mo I Rana (Norway) Jokkmokk (Sweden) Rovaniemi (Finland)

Asia:
Norilsk (Russia)

2

North America:
Anchorage (AK, USA) Edmonton (AB, Canada) Saskatoon (SK, Canada) Winnipeg (MB, Canada)

Europe:
Tórshavn (Faeroe Islands) Trondheim (Norway) Umeå (Sweden) Kokkola (Finland) Arkhangelsk (Russia)

3

North America:
Calgary (AB, Canada) Thunder Bay (ON, Canada)

Europe:
Ålesund (Norway) Sundsvall (Sweden) Jyväskylä (Finland)

4

North America:
Vancouver (BC, Canada) St. John's (NL, Canada) Billings (MT, USA) Bismarck (ND, USA) Minneapolis (MN, USA)

Europe:
Oslo (Norway) Stockholm (Sweden) Helsinki (Finland) Saint Petersburg (Russia)

Asia:
Yakutsk (Russia)

Southern Hemisphere:
Hobart (Australia) Invercargill (New Zealand)

5

North America:
Seattle (WA, USA) Chicago (IL, USA) Toronto (ON, Canada) Halifax (NS, Canada)

Europe:
Edinburgh (Scotland) Gothenburg (Sweden) Riga (Latvia)

Southern Hemisphere:
Devonport (Australia)

6

North America:
Portland (OR, USA) Boise (ID, USA) Casper (WY, USA) Lincoln (NE, USA) Indianapolis (IN, USA) Columbus (OH, USA) New York City (NY, USA)

Europe:
Dublin (Ireland) Manchester (England) Hamburg (Germany) Gdańsk (Poland) Vilnius (Lithuania) Moscow (Russia)

Southern Hemisphere:
Christchurch (New Zealand)

Asia:
Krasnoyarsk (Russia)

7

North America:
Salt Lake City (UT, USA) Denver (CO, USA) Nashville (TN, USA) Richmond (VA, USA)

Europe:
London (England) Brussels (Belgium) Cologne (Germany) Dresden (Germany) Warsaw (Poland)

Asia:
Novosibirsk (Russia)

Southern Hemisphere:
Melbourne (Australia) Wellington (New Zealand)

8

North America:
San Francisco (CA, USA) Las Vegas (NV, USA) Albuquerque (NM, USA) Dallas (TX, USA) Jackson (MS, USA) Atlanta (GA, USA)

Europe:
Paris (France) Munich (Germany) Vienna (Austria) Bratislava (Slovakia) Kiev (Ukraine)

Asia:
Astana (Kazakhstan)

Southern Hemisphere:
Perth (Australia) Sydney (Australia) Auckland (New Zealand)

9

North America:
Monterrey (Mexico) Miami (FL, USA)

Europe:
Barcelona (Spain) Marseille (France) Rome (Italy) Bucharest (Romania) Volgograd (Russia)

Asia:
Ulan Bator (Mongolia)

Southern Hemisphere:
Alice Springs (Australia) Brisbane (Australia) Ushuaia (Argentina) Cape Town (South Africa)

<< Zurück zur vorherigen Seite

Derzeit gibt es, auf Basis der aktuellen Daten, keine Chancen das Polarlicht auf den mittleren Breiten zu sehen

Neueste Nachrichten

Unterstützen Sie SpaceWeatherLive!

Um unsere vielen Besucher auch bei starkem Ansturm eine optimale Aurora Vorhersage zu geben, braucht es eine teure Serverausstattung. Unterstützen Sie dieses Projekt mit ihrem Beitrag, dass der Betrieb aufrecht erhalten werden kann!

100%

Aktuelle Warnungen

Erhalten Sie sofortige Benachrichtigungen!

Weltraumwetter Fakten

Letzte X-Klasse:10/09/2017X8.2
Letzte M-Klasse:20/10/2017M1.0
Letzter geomagnetischer Sturm:05/11/2018Kp6 (G2)
Anzahl der fleckenlose Tage im Jahr 2018:206
Letzter fleckenlose Tag:13/12/2018

An diesem Tag in der Geschichte*

Sonneneruptionen
12001C9.4
22001C8.3
32014C7.0
42001C6.5
52002C5.9
ApG
1200694G4
2200325G1
3199421G1
4201516G1
5201414
*seit 1994

Soziale Netzwerke