In fact I wonder something in the polar aurora. I know that it's caused by the electromagnetic field of the sun wich is somehow bloked by the electromagnetic field of the earth, but I heard that this phenomenon is accompagnied by some boomlike sounds. As a first idea I think that it's due to (someway) an electrical transfert between layers of ozone!!!! It's not very improved as interpretation but what do you think????
The aurora polaris is accompanied by sound only when there is a large amount os electromagnetic activity in the Ozone creating atomic oxygen. If the frequency of the breaking of ozone is too low compared to the frequency of radiation causing it we can hear the sound. But I currently have no equations that I can use to support it. Anyway best of luck.
Hi again.
What I said was iff the frequency of conversion much lower than the frequency of the incident radiation.
ie If some energy can energise an electron to get out of its orbit, then the frequency of conversion will be equal to that of radiation.
But the bond of Ozone will be stronger and atleast a billion packets of the radiation energy are needed to break it. That means the frequency of the breaking will be of the order of 1000s per second. I tried to tell you that.
If any phenomenon occurs with a rate like that its possible to hear it happening.
Ok! I think you mean somehow a shock wave. It's propably true but have you any text about this I find the subject very interesting and I like to learn more about it so can you suggest me some papers ebook or just websites?? I'm so greatful for your help.
Thank you very much!
**broken link removed**
These are some links where I even found some audio and video files of Aurora borealis.
I hope this helps.
Can you help me with integer factorization?
Hello jakjoud
I've a student who's interested in polar aurora as well.
He'd like to talk to you.
also if you have contacts with any research group working on it, Please send me the details with your id.
Thanks and regards
-Harsha S
Other articles speak of electromagnetic waves in the audio range (20 Hz to 20 kHz). These are known to produce audio sounds, when you put up a large loop of wire for an antenna, and listen through headphones. It needs no AM detector but may need audio amplification.