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APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 4:05 am
by APOD Robot
Image Gigantic Jet Lightning over India

Explanation: Yes, but can your lightning bolt do this? While flying from Munich to Singapore earlier this month, an industrious passenger took images of a passing lightning storm and caught something unexpected: gigantic jet lightning. The jet was captured on a single 3.2-second exposure above Bhadrak, India. Although the gigantic jet appears connected to the airplane's wing, it likely started in a more distant thundercloud, and can be seen extending upwards towards Earth's ionosphere. The nature of gigantic jets and their possible association with other types of Transient Luminous Events (TLEs) such as blue jets and red sprites remains an active topic of research.

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Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 6:15 am
by wolfie138
that's a stormingly good pic for being a 3 sec exposure on a plane!

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 10:52 am
by neufer

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 11:17 am
by orin stepanek
neufer wrote: Wed Sep 18, 2019 10:52 am

The Flying Nun; I do believe! 8-)

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 12:31 pm
by neufer
Click to play embedded YouTube video.
orin stepanek wrote: Wed Sep 18, 2019 11:17 am
The Flying Nun; I do believe! 8-)
Electrical Field extending upwards towards Earth's ionosphere.
https://en.wikipedia.org/wiki/Sally_Field wrote:
<<On October 29, 1988, at Aspen-Pitkin County Airport in Colorado, Sally Field and three members of her family were in a private plane owned by media mogul Merv Griffin when it lost power and aborted takeoff, slamming into parked aircraft. They all survived with minor injuries.>>

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 1:53 pm
by TheOtherBruce
Interesting, I haven't heard of this type of lightning before. Would it be safe to assume it also happens on other planets that have the right atmospheric conditions?

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 1:55 pm
by Chris Peterson
TheOtherBruce wrote: Wed Sep 18, 2019 1:53 pm Interesting, I haven't heard of this type of lightning before. Would it be safe to assume it also happens on other planets that have the right atmospheric conditions?
I think it would be safe to assume that there's nothing that happens on Earth that doesn't also happen on some other planets.

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 4:12 pm
by Psnarf
I did not know that elves were directly connected to a lightning bolt. Am I correct in postulating the tip of the bright bolt marks the boundary between the stratosphere and ionosphere? Is the violet color from ionized nitrogen?

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 5:38 pm
by BDanielMayfield
Psnarf wrote: Wed Sep 18, 2019 4:12 pm I did not know that elves were directly connected to a lightning bolt.
That's what the pointy ears are for, just like Vulcans.
Am I correct in postulating the tip of the bright bolt marks the boundary between the stratosphere and ionosphere? Is the violet color from ionized nitrogen?
I wondered about the source of the colors also. The green would be ionized Oxygen, right? What about the red?

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 5:42 pm
by BDanielMayfield
Chris Peterson wrote: Wed Sep 18, 2019 1:55 pm
TheOtherBruce wrote: Wed Sep 18, 2019 1:53 pm Interesting, I haven't heard of this type of lightning before. Would it be safe to assume it also happens on other planets that have the right atmospheric conditions?
I think it would be safe to assume that there's nothing that happens on Earth that doesn't also happen on some other planets.
Even arguments between you and I Chris?

Bruce

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 5:51 pm
by Chris Peterson
BDanielMayfield wrote: Wed Sep 18, 2019 5:42 pm
Chris Peterson wrote: Wed Sep 18, 2019 1:55 pm
TheOtherBruce wrote: Wed Sep 18, 2019 1:53 pm Interesting, I haven't heard of this type of lightning before. Would it be safe to assume it also happens on other planets that have the right atmospheric conditions?
I think it would be safe to assume that there's nothing that happens on Earth that doesn't also happen on some other planets.
Even arguments between you and I Chris?

Bruce
Do we argue? But yes... even that. Perhaps via mechanisms other than networked computers, though!

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 6:12 pm
by neufer
Chris Peterson wrote: Wed Sep 18, 2019 5:51 pm
BDanielMayfield wrote: Wed Sep 18, 2019 5:42 pm
Chris Peterson wrote: Wed Sep 18, 2019 1:55 pm
I think it would be safe to assume that there's nothing that happens on Earth that doesn't also happen on some other planets.
Even arguments between you and I Chris?
Do we argue? But yes... even that.

Perhaps via mechanisms other than networked computers, though!
And there they might be arguments "between you and me."

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 6:16 pm
by Chris Peterson
neufer wrote: Wed Sep 18, 2019 6:12 pm
Chris Peterson wrote: Wed Sep 18, 2019 5:51 pm
BDanielMayfield wrote: Wed Sep 18, 2019 5:42 pm

Even arguments between you and I Chris?
Do we argue? But yes... even that.

Perhaps via mechanisms other than networked computers, though!
And there they might be arguments "between you and me."
Methinks.

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 6:40 pm
by neufer
BDanielMayfield wrote: Wed Sep 18, 2019 5:38 pm
Psnarf wrote: Wed Sep 18, 2019 4:12 pm
Am I correct in postulating the tip of the bright bolt marks the boundary between the stratosphere and ionosphere? Is the violet color from ionized nitrogen?
I wondered about the source of the colors also. The green would be ionized Oxygen, right? What about the red?
https://en.wikipedia.org/wiki/Aurora#Auroras_and_the_atmosphere wrote:

<<Auroras result from emissions of photons in the Earth's upper atmosphere, above 80 km, from ionized nitrogen atoms regaining an electron, and oxygen atoms and nitrogen based molecules returning from an excited state to ground state. They are ionized or excited by the collision of particles precipitated into the atmosphere. Both incoming electrons and protons may be involved. Excitation energy is lost within the atmosphere by the emission of a photon, or by collision with another atom or molecule:

nitrogen emissions: blue or red; blue if the atom regains an electron after it has been ionized, red if returning to ground state from an excited state.

oxygen emissions: green or orange-red, depending on the amount of energy absorbed.
Oxygen is unusual in terms of its return to ground state: it can take three-quarters of a second to emit green light and up to two minutes to emit red. Collisions with other atoms or molecules absorb the excitation energy and prevent emission. Because the highest atmosphere has a higher percentage of oxygen and is sparsely distributed such collisions are rare enough to allow time for oxygen to emit red. Collisions become more frequent progressing down into the atmosphere so that red emissions do not have time to happen, and eventually, even green light emissions are prevented. This is why there is a color differential with altitude; at high altitudes oxygen red dominates, then oxygen green and nitrogen blue/red, then finally nitrogen blue/red when collisions prevent oxygen from emitting anything. Green is the most common color. Then comes pink, a mixture of light green and red, followed by pure red, then yellow (a mixture of red and green), and finally, pure blue.>>
https://en.wikipedia.org/wiki/Sprite_(lightning) wrote:

<<Sprites or red sprites are large-scale electrical discharges that occur high above thunderstorm clouds, or cumulonimbus, giving rise to a quite varied range of visual shapes flickering in the night sky. They are usually triggered by the discharges of positive lightning between an underlying thundercloud and the ground.

Sprites appear as luminous reddish-orange flashes. They often occur in clusters above the troposphere at an altitude range of 50–90 km. Sporadic visual reports of sprites go back at least to 1886 but they were first photographed on July 6, 1989, by scientists from the University of Minnesota and have subsequently been captured in video recordings many thousands of times.

Sprites are sometimes inaccurately called upper-atmospheric lightning. However, sprites are cold plasma phenomena that lack the hot channel temperatures of tropospheric lightning, so they are more akin to fluorescent tube discharges than to lightning discharges. Sprites are associated with various other upper-atmospheric optical phenomena including blue jets and ELVES.

Sprites are colored reddish-orange in their upper regions, with bluish hanging tendrils below, and can be preceded by a reddish halo. They last longer than normal lower stratospheric discharges, which last typically a few milliseconds, and are usually triggered by the discharges of positive lightning between the thundercloud and the ground, although sprites generated by negative ground flashes have also been observed. They often occur in clusters of two or more, and typically span the altitude range 50 to 90 kilometres, with what appear to be tendrils hanging below, and branches reaching above.[4]

Optical imaging using a 10,000 frame-per-second high speed camera showed that sprites are actually clusters of small, decameter-sized (10–100 m or 33–328 ft) balls of ionization that are launched at an altitude of about 80 km and then move downward at speeds of up to ten percent the speed of light, followed a few milliseconds later by a separate set of upward moving balls of ionization. Sprites may be horizontally displaced by up to 50 km from the location of the underlying lightning strike, with a time delay following the lightning that is typically a few milliseconds, but on rare occasions may be up to 100 milliseconds.>>

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 9:29 pm
by BDanielMayfield
Chris Peterson wrote: Wed Sep 18, 2019 5:51 pm
BDanielMayfield wrote: Wed Sep 18, 2019 5:42 pm
Chris Peterson wrote: Wed Sep 18, 2019 1:55 pm

I think it would be safe to assume that there's nothing that happens on Earth that doesn't also happen on some other planets.
Even arguments between you and I Chris?

Bruce
Do we argue? But yes... even that. Perhaps via mechanisms other than networked computers, though!
With civility, but yes, we argue. About things such as the existence of the multiverse, for example.

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Wed Sep 18, 2019 10:55 pm
by Ann
neufer wrote: Wed Sep 18, 2019 6:40 pm
BDanielMayfield wrote: Wed Sep 18, 2019 5:38 pm
Psnarf wrote: Wed Sep 18, 2019 4:12 pm
Am I correct in postulating the tip of the bright bolt marks the boundary between the stratosphere and ionosphere? Is the violet color from ionized nitrogen?
I wondered about the source of the colors also. The green would be ionized Oxygen, right? What about the red?
https://en.wikipedia.org/wiki/Aurora#Auroras_and_the_atmosphere wrote:

<<Auroras result from emissions of photons in the Earth's upper atmosphere, above 80 km, from ionized nitrogen atoms regaining an electron, and oxygen atoms and nitrogen based molecules returning from an excited state to ground state. They are ionized or excited by the collision of particles precipitated into the atmosphere. Both incoming electrons and protons may be involved. Excitation energy is lost within the atmosphere by the emission of a photon, or by collision with another atom or molecule:

nitrogen emissions: blue or red; blue if the atom regains an electron after it has been ionized, red if returning to ground state from an excited state.

oxygen emissions: green or orange-red, depending on the amount of energy absorbed.
Oxygen is unusual in terms of its return to ground state: it can take three-quarters of a second to emit green light and up to two minutes to emit red. Collisions with other atoms or molecules absorb the excitation energy and prevent emission. Because the highest atmosphere has a higher percentage of oxygen and is sparsely distributed such collisions are rare enough to allow time for oxygen to emit red. Collisions become more frequent progressing down into the atmosphere so that red emissions do not have time to happen, and eventually, even green light emissions are prevented. This is why there is a color differential with altitude; at high altitudes oxygen red dominates, then oxygen green and nitrogen blue/red, then finally nitrogen blue/red when collisions prevent oxygen from emitting anything. Green is the most common color. Then comes pink, a mixture of light green and red, followed by pure red, then yellow (a mixture of red and green), and finally, pure blue.>>
https://en.wikipedia.org/wiki/Sprite_(lightning) wrote:

<<Sprites or red sprites are large-scale electrical discharges that occur high above thunderstorm clouds, or cumulonimbus, giving rise to a quite varied range of visual shapes flickering in the night sky. They are usually triggered by the discharges of positive lightning between an underlying thundercloud and the ground.

Sprites appear as luminous reddish-orange flashes. They often occur in clusters above the troposphere at an altitude range of 50–90 km. Sporadic visual reports of sprites go back at least to 1886 but they were first photographed on July 6, 1989, by scientists from the University of Minnesota and have subsequently been captured in video recordings many thousands of times.

Sprites are sometimes inaccurately called upper-atmospheric lightning. However, sprites are cold plasma phenomena that lack the hot channel temperatures of tropospheric lightning, so they are more akin to fluorescent tube discharges than to lightning discharges. Sprites are associated with various other upper-atmospheric optical phenomena including blue jets and ELVES.

Sprites are colored reddish-orange in their upper regions, with bluish hanging tendrils below, and can be preceded by a reddish halo. They last longer than normal lower stratospheric discharges, which last typically a few milliseconds, and are usually triggered by the discharges of positive lightning between the thundercloud and the ground, although sprites generated by negative ground flashes have also been observed. They often occur in clusters of two or more, and typically span the altitude range 50 to 90 kilometres, with what appear to be tendrils hanging below, and branches reaching above.[4]

Optical imaging using a 10,000 frame-per-second high speed camera showed that sprites are actually clusters of small, decameter-sized (10–100 m or 33–328 ft) balls of ionization that are launched at an altitude of about 80 km and then move downward at speeds of up to ten percent the speed of light, followed a few milliseconds later by a separate set of upward moving balls of ionization. Sprites may be horizontally displaced by up to 50 km from the location of the underlying lightning strike, with a time delay following the lightning that is typically a few milliseconds, but on rare occasions may be up to 100 milliseconds.>>

Thanks, Art, very interesting. Am I right to think you are suggesting that nitrogen might cause the blue color of the blue jets, and that oxygen, high up in the atmosphere, might cause the red color of the red sprites?

Ann

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Thu Sep 19, 2019 1:22 am
by neufer
Ann wrote: Wed Sep 18, 2019 10:55 pm
Thanks, Art, very interesting. Am I right to think you are suggesting that nitrogen might cause the blue color of the blue jets, and that oxygen, high up in the atmosphere, might cause the red color of the red sprites?
Red sprites don't occur all that
"high up in the atmosphere"
(as compared with aurora).

I attribute both the blue & red to the dominant atmospheric gas: nitrogen.

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Thu Sep 19, 2019 1:34 am
by FLPhotoCatcher
wolfie138 wrote: Wed Sep 18, 2019 6:15 am that's a stormingly good pic for being a 3 sec exposure on a plane!
Yes, it is. I'm guessing the photographer held the camera against the plane's window, and/or window frame.

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Thu Sep 19, 2019 3:33 am
by MTU Lazer Dog
Aurora is the acceleration of particles from the sun that get captured by earth's magnetic field. Lightning creates huge currents high above earth, and those current filaments are more than capable of causing the a same light to be emitted as Aurora, but from a very transient cause. Great photo!

Re: APOD: Gigantic Jet Lightning over India (2019 Sep 18)

Posted: Thu Sep 19, 2019 4:23 am
by Ann
neufer wrote: Thu Sep 19, 2019 1:22 am
Ann wrote: Wed Sep 18, 2019 10:55 pm
Thanks, Art, very interesting. Am I right to think you are suggesting that nitrogen might cause the blue color of the blue jets, and that oxygen, high up in the atmosphere, might cause the red color of the red sprites?
Red sprites don't occur all that
"high up in the atmosphere"
(as compared with aurora).

I attribute both the blue & red to the dominant atmospheric gas: nitrogen.
Okay, thanks for the clarification! :D

Ann