What would make radio transmission unfeasible on a planet?
I am looking for a good reason to make radio communications on a planetary scale unfeasible or impossible. Short-range use is acceptable, but no transmissions should make it to orbit or over the horizon line. Hints on specific type and features of an atmospheres are welcome, as well as scenarios that involve no atmosphere.
Edit concerning radio communications between to and from the planet, as dealt with in a different question: the important part would be that no transmissions would be able to leave the planet and reach orbit.
Edit concerning technologies involved generating "radio" transmissions: i am most interested in the conditions that would make atmospheric or above-surface transmission of radio signals impossible/not worth the effort. i am fine with the idea of using crust-resonance, lasers etc for communications.
atmosphere communication radio
New contributor
|
show 4 more comments
I am looking for a good reason to make radio communications on a planetary scale unfeasible or impossible. Short-range use is acceptable, but no transmissions should make it to orbit or over the horizon line. Hints on specific type and features of an atmospheres are welcome, as well as scenarios that involve no atmosphere.
Edit concerning radio communications between to and from the planet, as dealt with in a different question: the important part would be that no transmissions would be able to leave the planet and reach orbit.
Edit concerning technologies involved generating "radio" transmissions: i am most interested in the conditions that would make atmospheric or above-surface transmission of radio signals impossible/not worth the effort. i am fine with the idea of using crust-resonance, lasers etc for communications.
atmosphere communication radio
New contributor
Hi, flexneck, welcome to Worldbuilding Stack Exchange! Nice question. What technology level would your civilization have? Do they have the tech levels of today, say, or of 1900?
– HDE 226868♦
Dec 20 at 0:40
good point - i am wondering about conditions that would make radio transmissions unfeasible or impossible for any civilization level, ie what would the planetary and possibly local star system conditions have to be like for this to occur (extreme solar radiation comes to mind, but how would that actually look like...)
– flexneck
Dec 20 at 0:47
Hi, @flexneck. Per your previous comment to HDE, I've edited my answer to try to be as broad as possible. Can you provide any additional details on the technology being used?
– Dan
Dec 20 at 1:11
2
Possible duplicate of Can any astronomical phenomenon block/scramble all radio signals from a planet, without making it completely uninhabitable?
– Renan
Dec 20 at 1:25
The question posed as a duplicate is specific to human-inhabited planets. This question asks for something broader (different atmospheres or none at all, implying that it could be an alien planet or one with domes/research/mining/etc). So the other answers may not be sufficient to answer this question.
– Cyn
Dec 20 at 2:09
|
show 4 more comments
I am looking for a good reason to make radio communications on a planetary scale unfeasible or impossible. Short-range use is acceptable, but no transmissions should make it to orbit or over the horizon line. Hints on specific type and features of an atmospheres are welcome, as well as scenarios that involve no atmosphere.
Edit concerning radio communications between to and from the planet, as dealt with in a different question: the important part would be that no transmissions would be able to leave the planet and reach orbit.
Edit concerning technologies involved generating "radio" transmissions: i am most interested in the conditions that would make atmospheric or above-surface transmission of radio signals impossible/not worth the effort. i am fine with the idea of using crust-resonance, lasers etc for communications.
atmosphere communication radio
New contributor
I am looking for a good reason to make radio communications on a planetary scale unfeasible or impossible. Short-range use is acceptable, but no transmissions should make it to orbit or over the horizon line. Hints on specific type and features of an atmospheres are welcome, as well as scenarios that involve no atmosphere.
Edit concerning radio communications between to and from the planet, as dealt with in a different question: the important part would be that no transmissions would be able to leave the planet and reach orbit.
Edit concerning technologies involved generating "radio" transmissions: i am most interested in the conditions that would make atmospheric or above-surface transmission of radio signals impossible/not worth the effort. i am fine with the idea of using crust-resonance, lasers etc for communications.
atmosphere communication radio
atmosphere communication radio
New contributor
New contributor
edited Dec 20 at 2:59
New contributor
asked Dec 20 at 0:11
flexneck
465
465
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New contributor
Hi, flexneck, welcome to Worldbuilding Stack Exchange! Nice question. What technology level would your civilization have? Do they have the tech levels of today, say, or of 1900?
– HDE 226868♦
Dec 20 at 0:40
good point - i am wondering about conditions that would make radio transmissions unfeasible or impossible for any civilization level, ie what would the planetary and possibly local star system conditions have to be like for this to occur (extreme solar radiation comes to mind, but how would that actually look like...)
– flexneck
Dec 20 at 0:47
Hi, @flexneck. Per your previous comment to HDE, I've edited my answer to try to be as broad as possible. Can you provide any additional details on the technology being used?
– Dan
Dec 20 at 1:11
2
Possible duplicate of Can any astronomical phenomenon block/scramble all radio signals from a planet, without making it completely uninhabitable?
– Renan
Dec 20 at 1:25
The question posed as a duplicate is specific to human-inhabited planets. This question asks for something broader (different atmospheres or none at all, implying that it could be an alien planet or one with domes/research/mining/etc). So the other answers may not be sufficient to answer this question.
– Cyn
Dec 20 at 2:09
|
show 4 more comments
Hi, flexneck, welcome to Worldbuilding Stack Exchange! Nice question. What technology level would your civilization have? Do they have the tech levels of today, say, or of 1900?
– HDE 226868♦
Dec 20 at 0:40
good point - i am wondering about conditions that would make radio transmissions unfeasible or impossible for any civilization level, ie what would the planetary and possibly local star system conditions have to be like for this to occur (extreme solar radiation comes to mind, but how would that actually look like...)
– flexneck
Dec 20 at 0:47
Hi, @flexneck. Per your previous comment to HDE, I've edited my answer to try to be as broad as possible. Can you provide any additional details on the technology being used?
– Dan
Dec 20 at 1:11
2
Possible duplicate of Can any astronomical phenomenon block/scramble all radio signals from a planet, without making it completely uninhabitable?
– Renan
Dec 20 at 1:25
The question posed as a duplicate is specific to human-inhabited planets. This question asks for something broader (different atmospheres or none at all, implying that it could be an alien planet or one with domes/research/mining/etc). So the other answers may not be sufficient to answer this question.
– Cyn
Dec 20 at 2:09
Hi, flexneck, welcome to Worldbuilding Stack Exchange! Nice question. What technology level would your civilization have? Do they have the tech levels of today, say, or of 1900?
– HDE 226868♦
Dec 20 at 0:40
Hi, flexneck, welcome to Worldbuilding Stack Exchange! Nice question. What technology level would your civilization have? Do they have the tech levels of today, say, or of 1900?
– HDE 226868♦
Dec 20 at 0:40
good point - i am wondering about conditions that would make radio transmissions unfeasible or impossible for any civilization level, ie what would the planetary and possibly local star system conditions have to be like for this to occur (extreme solar radiation comes to mind, but how would that actually look like...)
– flexneck
Dec 20 at 0:47
good point - i am wondering about conditions that would make radio transmissions unfeasible or impossible for any civilization level, ie what would the planetary and possibly local star system conditions have to be like for this to occur (extreme solar radiation comes to mind, but how would that actually look like...)
– flexneck
Dec 20 at 0:47
Hi, @flexneck. Per your previous comment to HDE, I've edited my answer to try to be as broad as possible. Can you provide any additional details on the technology being used?
– Dan
Dec 20 at 1:11
Hi, @flexneck. Per your previous comment to HDE, I've edited my answer to try to be as broad as possible. Can you provide any additional details on the technology being used?
– Dan
Dec 20 at 1:11
2
2
Possible duplicate of Can any astronomical phenomenon block/scramble all radio signals from a planet, without making it completely uninhabitable?
– Renan
Dec 20 at 1:25
Possible duplicate of Can any astronomical phenomenon block/scramble all radio signals from a planet, without making it completely uninhabitable?
– Renan
Dec 20 at 1:25
The question posed as a duplicate is specific to human-inhabited planets. This question asks for something broader (different atmospheres or none at all, implying that it could be an alien planet or one with domes/research/mining/etc). So the other answers may not be sufficient to answer this question.
– Cyn
Dec 20 at 2:09
The question posed as a duplicate is specific to human-inhabited planets. This question asks for something broader (different atmospheres or none at all, implying that it could be an alien planet or one with domes/research/mining/etc). So the other answers may not be sufficient to answer this question.
– Cyn
Dec 20 at 2:09
|
show 4 more comments
5 Answers
5
active
oldest
votes
To keep the signals from reaching space you would need a charged upper atmosphere that is strong enough to block most signals. This may result in some aurora borealis if my understanding is correct, but it's pretty set dressing at least.
The problem is that radio waves can travel through the ground too, so if you want to limit your communications range you need to alter the planets surface composition. Ever hear of Aokigahara? It's the place where Logan Paul screwed over his whole career. Well that place blocks cell signals because of the hill's rich iron composition. Make your planet rich in iron and that will fix most of your problems.
However, the signal might still bounce between the ground and atmosphere and the high charge might cause nothing but radio static everywhere, so some hand waving or contrivium may be in order.
New contributor
+1 This! Super ionized atmosphere and metallic hills or mountains. This is what came to my mind, as radio amateur, immediately.
– rexkogitans
Dec 20 at 6:06
add a comment |
First, before people start yelling "solar storms!" just bear in mind that even the craziest geomagnetic phenomena might not be effective against lower frequencies traveling long distances.
How this question is best answered depends on the forms of communication we're talking about. If you limit your technology to specific forms of communication (i.e., what frequencies we're dealing with), the constraints are easier to define, and it's easier to give you more specifics. (Microwave frequencies behave differently than FM, etc.)
As your question implies, you are already aware that some forms of radio waves will reach distances beyond the line-of-sight of the transmitter because of how they "bounce" off the ionosphere. But they can also travel long distances as ground waves. This Wikipedia article has some good info. So, it may be best to think of this question in two parts:
First:
No transmissions should make it to orbit...
Generally speaking, in theory, I suppose if you had a ridiculously ionized layer of atmosphere, it could conceivably block most if not all signals from reaching orbit, so that solves half of your problem. (The science is a bit less simple than I'm making it sound, but that's the basic idea.) But again, the frequencies involved will affect this.
Additionally, the composition of the atmosphere itself can affect signal propagation. Altering the content of the various atmospheric gases could give you the effects you're looking for; different gases react differently to EM. Of course, too much alteration and the air will become unbreathable, or air pressure will become too high, and people will need EV suits. I recommend visiting the Physics or Space Exploration Stack Exchange sites for more info in these regards.
Second:
...or over the horizon line.
I would consider using terrain as a way to limit your range. Bodies of water and rugged, mountainous landscapes absorb a lot of EM radiation. Volcanic activity producing high amounts of ash can help, but anything short of a cataclysmic eruption would probably not cause much interference for long, and certainly not over a wide area. So, probably too unreliable for you to count on.
Note also that some weather can actually work against you and improve the signal range.
add a comment |
What would make radio transmission unfeasible on a planet?
Fierce Geomagnetic Storms.
A non lower-atmospheric solution is a very active sun that releases more or less continuous flares which beat on the upper atmosphere - as they do on Earth in an eleven year cycle - but if the ones squirting out from your star are more or less continuous, then they'd fit the bill.
- There's the storm of March 9, 1989 which disrupted radio stations - some believed it had been done by the Russians and was the start of something more sinister (it was during the cold war).
Creative Commons Attribution-ShareAlike License: Wikipedia 2018.
There's a nice chart on Wikipedia about their classifications and how big they get on Earth (a bit like earthquake classifications).
There's a brief bit about potential effects on animals when it gets realy bad which may be worth noting.
this is a good start for hypothetical continueous solar flares, a valid solution - now, how to explain such a phenomenon?
– flexneck
Dec 20 at 2:20
3
@flexneck Without going into ludicrous detail, our sun's magnetic field flips polarity every eleven years - which corresponds to the solar maximum of sun spot activity, then there are outliers that produce super storms like the one in 1921 that blacked out 130 million homes. If your sun had a much longer period than our suns 11 years - maybe in the 1000s of years, the extreme disturbances could last for longer, much longer. This would be helped by it being a bigger main sequence star, it's rythyms slower (your goldilocks zone would be somewhat further out).
– Duckisaduckisaduck
Dec 20 at 2:58
@flexneck Or even an non-main sequence star, giants are quite common, distribution wise: en.wikipedia.org/wiki/Main_sequence#/media/File:HRDiagram.png
– Duckisaduckisaduck
Dec 20 at 3:07
This highly active sun will blow away any atmosphere , and then you have silence again at least on the dark side of the planet.
– Karl
Dec 20 at 6:13
Do you think a Wolf-Rayet star would be a good candidate for making that effect on a continuous basis?
– Christmas Snow
yesterday
add a comment |
A mars sized planet would be more difficult for radio because of the enhanced curvature of the surface. A planet with an atmosphere thick with metallic dust also bad.. especially if that meant frequent electrical storms. A planet with a weak magnetic field.. allowing solar particles to penetrate the atmosphere.. basically mars.. with a slightly thicker atmosphere.
2
Mars' features have certainly crossed my mind, and you make excellent points - but none of this makes the use of radio impossible, just less convenient. otherwise we wouldn't be looking at pics from the various rovers..-)
– flexneck
Dec 20 at 0:52
@flexneck true.. I missed your point about signals leaving the planet. What about orbiting dust? A large planet with a thick dusty atmosphere surrounded by a thick cloud of orbiting dust.. so.. a newly formed planet say.
– Richard
Dec 20 at 0:55
again, that would just mean tuning for ideal or even just minimal passage, and you could communicate with a satellite in a higher orbit than the dust
– flexneck
Dec 20 at 1:04
add a comment |
This may be considered cheating, but... Make the atmosphere highly noxious.
We take it for granted that our planet has a nice atmosphere and significant protections from solar UV radiation. If the ozone never formed, UV would still be so intense that we would still be stuck in the oceans. Once you're deep enough underwater, the distance radio transmissions can travel is significantly reduced (more so for some frequencies in the low GHz range than others). Long-range transmission would thus be made infeasible not because the signals would be blocked, but because building transmitters in such an environment would be dangerous. The same thing can be done without resorting to an underwater civilization. Imagine a species like ourselves that live on Venus. We would need to live in underground and actively cooled tunnels to avoid the lethal combinations of pressure, acidity, and heat that plague the surface. Transmitters would not survive for much longer either.
this is an excellent cheat:-) but it is only applicable when one assumes that the inhabitants of the radio-inhibited world are humans/oids, with similiar comfort/life parameters to ours. i am looking for physical reasons that would inhibit the use absolutely.
– flexneck
Dec 21 at 0:29
@flexneck A sufficiently noxious atmosphere would be fatal to anything. After all, before the Great Oxygenation Event, everything lived in the ocean to stay out of the lethal UV radiation on the surface. This was long before hominids evolved.
– forest
Dec 21 at 0:32
again, you are assuming that life has to evolve on this world - what about visitors trying to use radio transmissions, even as expendable robots?
– flexneck
Dec 21 at 0:34
add a comment |
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To keep the signals from reaching space you would need a charged upper atmosphere that is strong enough to block most signals. This may result in some aurora borealis if my understanding is correct, but it's pretty set dressing at least.
The problem is that radio waves can travel through the ground too, so if you want to limit your communications range you need to alter the planets surface composition. Ever hear of Aokigahara? It's the place where Logan Paul screwed over his whole career. Well that place blocks cell signals because of the hill's rich iron composition. Make your planet rich in iron and that will fix most of your problems.
However, the signal might still bounce between the ground and atmosphere and the high charge might cause nothing but radio static everywhere, so some hand waving or contrivium may be in order.
New contributor
+1 This! Super ionized atmosphere and metallic hills or mountains. This is what came to my mind, as radio amateur, immediately.
– rexkogitans
Dec 20 at 6:06
add a comment |
To keep the signals from reaching space you would need a charged upper atmosphere that is strong enough to block most signals. This may result in some aurora borealis if my understanding is correct, but it's pretty set dressing at least.
The problem is that radio waves can travel through the ground too, so if you want to limit your communications range you need to alter the planets surface composition. Ever hear of Aokigahara? It's the place where Logan Paul screwed over his whole career. Well that place blocks cell signals because of the hill's rich iron composition. Make your planet rich in iron and that will fix most of your problems.
However, the signal might still bounce between the ground and atmosphere and the high charge might cause nothing but radio static everywhere, so some hand waving or contrivium may be in order.
New contributor
+1 This! Super ionized atmosphere and metallic hills or mountains. This is what came to my mind, as radio amateur, immediately.
– rexkogitans
Dec 20 at 6:06
add a comment |
To keep the signals from reaching space you would need a charged upper atmosphere that is strong enough to block most signals. This may result in some aurora borealis if my understanding is correct, but it's pretty set dressing at least.
The problem is that radio waves can travel through the ground too, so if you want to limit your communications range you need to alter the planets surface composition. Ever hear of Aokigahara? It's the place where Logan Paul screwed over his whole career. Well that place blocks cell signals because of the hill's rich iron composition. Make your planet rich in iron and that will fix most of your problems.
However, the signal might still bounce between the ground and atmosphere and the high charge might cause nothing but radio static everywhere, so some hand waving or contrivium may be in order.
New contributor
To keep the signals from reaching space you would need a charged upper atmosphere that is strong enough to block most signals. This may result in some aurora borealis if my understanding is correct, but it's pretty set dressing at least.
The problem is that radio waves can travel through the ground too, so if you want to limit your communications range you need to alter the planets surface composition. Ever hear of Aokigahara? It's the place where Logan Paul screwed over his whole career. Well that place blocks cell signals because of the hill's rich iron composition. Make your planet rich in iron and that will fix most of your problems.
However, the signal might still bounce between the ground and atmosphere and the high charge might cause nothing but radio static everywhere, so some hand waving or contrivium may be in order.
New contributor
New contributor
answered Dec 20 at 2:18
Snydwell
2307
2307
New contributor
New contributor
+1 This! Super ionized atmosphere and metallic hills or mountains. This is what came to my mind, as radio amateur, immediately.
– rexkogitans
Dec 20 at 6:06
add a comment |
+1 This! Super ionized atmosphere and metallic hills or mountains. This is what came to my mind, as radio amateur, immediately.
– rexkogitans
Dec 20 at 6:06
+1 This! Super ionized atmosphere and metallic hills or mountains. This is what came to my mind, as radio amateur, immediately.
– rexkogitans
Dec 20 at 6:06
+1 This! Super ionized atmosphere and metallic hills or mountains. This is what came to my mind, as radio amateur, immediately.
– rexkogitans
Dec 20 at 6:06
add a comment |
First, before people start yelling "solar storms!" just bear in mind that even the craziest geomagnetic phenomena might not be effective against lower frequencies traveling long distances.
How this question is best answered depends on the forms of communication we're talking about. If you limit your technology to specific forms of communication (i.e., what frequencies we're dealing with), the constraints are easier to define, and it's easier to give you more specifics. (Microwave frequencies behave differently than FM, etc.)
As your question implies, you are already aware that some forms of radio waves will reach distances beyond the line-of-sight of the transmitter because of how they "bounce" off the ionosphere. But they can also travel long distances as ground waves. This Wikipedia article has some good info. So, it may be best to think of this question in two parts:
First:
No transmissions should make it to orbit...
Generally speaking, in theory, I suppose if you had a ridiculously ionized layer of atmosphere, it could conceivably block most if not all signals from reaching orbit, so that solves half of your problem. (The science is a bit less simple than I'm making it sound, but that's the basic idea.) But again, the frequencies involved will affect this.
Additionally, the composition of the atmosphere itself can affect signal propagation. Altering the content of the various atmospheric gases could give you the effects you're looking for; different gases react differently to EM. Of course, too much alteration and the air will become unbreathable, or air pressure will become too high, and people will need EV suits. I recommend visiting the Physics or Space Exploration Stack Exchange sites for more info in these regards.
Second:
...or over the horizon line.
I would consider using terrain as a way to limit your range. Bodies of water and rugged, mountainous landscapes absorb a lot of EM radiation. Volcanic activity producing high amounts of ash can help, but anything short of a cataclysmic eruption would probably not cause much interference for long, and certainly not over a wide area. So, probably too unreliable for you to count on.
Note also that some weather can actually work against you and improve the signal range.
add a comment |
First, before people start yelling "solar storms!" just bear in mind that even the craziest geomagnetic phenomena might not be effective against lower frequencies traveling long distances.
How this question is best answered depends on the forms of communication we're talking about. If you limit your technology to specific forms of communication (i.e., what frequencies we're dealing with), the constraints are easier to define, and it's easier to give you more specifics. (Microwave frequencies behave differently than FM, etc.)
As your question implies, you are already aware that some forms of radio waves will reach distances beyond the line-of-sight of the transmitter because of how they "bounce" off the ionosphere. But they can also travel long distances as ground waves. This Wikipedia article has some good info. So, it may be best to think of this question in two parts:
First:
No transmissions should make it to orbit...
Generally speaking, in theory, I suppose if you had a ridiculously ionized layer of atmosphere, it could conceivably block most if not all signals from reaching orbit, so that solves half of your problem. (The science is a bit less simple than I'm making it sound, but that's the basic idea.) But again, the frequencies involved will affect this.
Additionally, the composition of the atmosphere itself can affect signal propagation. Altering the content of the various atmospheric gases could give you the effects you're looking for; different gases react differently to EM. Of course, too much alteration and the air will become unbreathable, or air pressure will become too high, and people will need EV suits. I recommend visiting the Physics or Space Exploration Stack Exchange sites for more info in these regards.
Second:
...or over the horizon line.
I would consider using terrain as a way to limit your range. Bodies of water and rugged, mountainous landscapes absorb a lot of EM radiation. Volcanic activity producing high amounts of ash can help, but anything short of a cataclysmic eruption would probably not cause much interference for long, and certainly not over a wide area. So, probably too unreliable for you to count on.
Note also that some weather can actually work against you and improve the signal range.
add a comment |
First, before people start yelling "solar storms!" just bear in mind that even the craziest geomagnetic phenomena might not be effective against lower frequencies traveling long distances.
How this question is best answered depends on the forms of communication we're talking about. If you limit your technology to specific forms of communication (i.e., what frequencies we're dealing with), the constraints are easier to define, and it's easier to give you more specifics. (Microwave frequencies behave differently than FM, etc.)
As your question implies, you are already aware that some forms of radio waves will reach distances beyond the line-of-sight of the transmitter because of how they "bounce" off the ionosphere. But they can also travel long distances as ground waves. This Wikipedia article has some good info. So, it may be best to think of this question in two parts:
First:
No transmissions should make it to orbit...
Generally speaking, in theory, I suppose if you had a ridiculously ionized layer of atmosphere, it could conceivably block most if not all signals from reaching orbit, so that solves half of your problem. (The science is a bit less simple than I'm making it sound, but that's the basic idea.) But again, the frequencies involved will affect this.
Additionally, the composition of the atmosphere itself can affect signal propagation. Altering the content of the various atmospheric gases could give you the effects you're looking for; different gases react differently to EM. Of course, too much alteration and the air will become unbreathable, or air pressure will become too high, and people will need EV suits. I recommend visiting the Physics or Space Exploration Stack Exchange sites for more info in these regards.
Second:
...or over the horizon line.
I would consider using terrain as a way to limit your range. Bodies of water and rugged, mountainous landscapes absorb a lot of EM radiation. Volcanic activity producing high amounts of ash can help, but anything short of a cataclysmic eruption would probably not cause much interference for long, and certainly not over a wide area. So, probably too unreliable for you to count on.
Note also that some weather can actually work against you and improve the signal range.
First, before people start yelling "solar storms!" just bear in mind that even the craziest geomagnetic phenomena might not be effective against lower frequencies traveling long distances.
How this question is best answered depends on the forms of communication we're talking about. If you limit your technology to specific forms of communication (i.e., what frequencies we're dealing with), the constraints are easier to define, and it's easier to give you more specifics. (Microwave frequencies behave differently than FM, etc.)
As your question implies, you are already aware that some forms of radio waves will reach distances beyond the line-of-sight of the transmitter because of how they "bounce" off the ionosphere. But they can also travel long distances as ground waves. This Wikipedia article has some good info. So, it may be best to think of this question in two parts:
First:
No transmissions should make it to orbit...
Generally speaking, in theory, I suppose if you had a ridiculously ionized layer of atmosphere, it could conceivably block most if not all signals from reaching orbit, so that solves half of your problem. (The science is a bit less simple than I'm making it sound, but that's the basic idea.) But again, the frequencies involved will affect this.
Additionally, the composition of the atmosphere itself can affect signal propagation. Altering the content of the various atmospheric gases could give you the effects you're looking for; different gases react differently to EM. Of course, too much alteration and the air will become unbreathable, or air pressure will become too high, and people will need EV suits. I recommend visiting the Physics or Space Exploration Stack Exchange sites for more info in these regards.
Second:
...or over the horizon line.
I would consider using terrain as a way to limit your range. Bodies of water and rugged, mountainous landscapes absorb a lot of EM radiation. Volcanic activity producing high amounts of ash can help, but anything short of a cataclysmic eruption would probably not cause much interference for long, and certainly not over a wide area. So, probably too unreliable for you to count on.
Note also that some weather can actually work against you and improve the signal range.
edited yesterday
answered Dec 20 at 0:44
Dan
1,339512
1,339512
add a comment |
add a comment |
What would make radio transmission unfeasible on a planet?
Fierce Geomagnetic Storms.
A non lower-atmospheric solution is a very active sun that releases more or less continuous flares which beat on the upper atmosphere - as they do on Earth in an eleven year cycle - but if the ones squirting out from your star are more or less continuous, then they'd fit the bill.
- There's the storm of March 9, 1989 which disrupted radio stations - some believed it had been done by the Russians and was the start of something more sinister (it was during the cold war).
Creative Commons Attribution-ShareAlike License: Wikipedia 2018.
There's a nice chart on Wikipedia about their classifications and how big they get on Earth (a bit like earthquake classifications).
There's a brief bit about potential effects on animals when it gets realy bad which may be worth noting.
this is a good start for hypothetical continueous solar flares, a valid solution - now, how to explain such a phenomenon?
– flexneck
Dec 20 at 2:20
3
@flexneck Without going into ludicrous detail, our sun's magnetic field flips polarity every eleven years - which corresponds to the solar maximum of sun spot activity, then there are outliers that produce super storms like the one in 1921 that blacked out 130 million homes. If your sun had a much longer period than our suns 11 years - maybe in the 1000s of years, the extreme disturbances could last for longer, much longer. This would be helped by it being a bigger main sequence star, it's rythyms slower (your goldilocks zone would be somewhat further out).
– Duckisaduckisaduck
Dec 20 at 2:58
@flexneck Or even an non-main sequence star, giants are quite common, distribution wise: en.wikipedia.org/wiki/Main_sequence#/media/File:HRDiagram.png
– Duckisaduckisaduck
Dec 20 at 3:07
This highly active sun will blow away any atmosphere , and then you have silence again at least on the dark side of the planet.
– Karl
Dec 20 at 6:13
Do you think a Wolf-Rayet star would be a good candidate for making that effect on a continuous basis?
– Christmas Snow
yesterday
add a comment |
What would make radio transmission unfeasible on a planet?
Fierce Geomagnetic Storms.
A non lower-atmospheric solution is a very active sun that releases more or less continuous flares which beat on the upper atmosphere - as they do on Earth in an eleven year cycle - but if the ones squirting out from your star are more or less continuous, then they'd fit the bill.
- There's the storm of March 9, 1989 which disrupted radio stations - some believed it had been done by the Russians and was the start of something more sinister (it was during the cold war).
Creative Commons Attribution-ShareAlike License: Wikipedia 2018.
There's a nice chart on Wikipedia about their classifications and how big they get on Earth (a bit like earthquake classifications).
There's a brief bit about potential effects on animals when it gets realy bad which may be worth noting.
this is a good start for hypothetical continueous solar flares, a valid solution - now, how to explain such a phenomenon?
– flexneck
Dec 20 at 2:20
3
@flexneck Without going into ludicrous detail, our sun's magnetic field flips polarity every eleven years - which corresponds to the solar maximum of sun spot activity, then there are outliers that produce super storms like the one in 1921 that blacked out 130 million homes. If your sun had a much longer period than our suns 11 years - maybe in the 1000s of years, the extreme disturbances could last for longer, much longer. This would be helped by it being a bigger main sequence star, it's rythyms slower (your goldilocks zone would be somewhat further out).
– Duckisaduckisaduck
Dec 20 at 2:58
@flexneck Or even an non-main sequence star, giants are quite common, distribution wise: en.wikipedia.org/wiki/Main_sequence#/media/File:HRDiagram.png
– Duckisaduckisaduck
Dec 20 at 3:07
This highly active sun will blow away any atmosphere , and then you have silence again at least on the dark side of the planet.
– Karl
Dec 20 at 6:13
Do you think a Wolf-Rayet star would be a good candidate for making that effect on a continuous basis?
– Christmas Snow
yesterday
add a comment |
What would make radio transmission unfeasible on a planet?
Fierce Geomagnetic Storms.
A non lower-atmospheric solution is a very active sun that releases more or less continuous flares which beat on the upper atmosphere - as they do on Earth in an eleven year cycle - but if the ones squirting out from your star are more or less continuous, then they'd fit the bill.
- There's the storm of March 9, 1989 which disrupted radio stations - some believed it had been done by the Russians and was the start of something more sinister (it was during the cold war).
Creative Commons Attribution-ShareAlike License: Wikipedia 2018.
There's a nice chart on Wikipedia about their classifications and how big they get on Earth (a bit like earthquake classifications).
There's a brief bit about potential effects on animals when it gets realy bad which may be worth noting.
What would make radio transmission unfeasible on a planet?
Fierce Geomagnetic Storms.
A non lower-atmospheric solution is a very active sun that releases more or less continuous flares which beat on the upper atmosphere - as they do on Earth in an eleven year cycle - but if the ones squirting out from your star are more or less continuous, then they'd fit the bill.
- There's the storm of March 9, 1989 which disrupted radio stations - some believed it had been done by the Russians and was the start of something more sinister (it was during the cold war).
Creative Commons Attribution-ShareAlike License: Wikipedia 2018.
There's a nice chart on Wikipedia about their classifications and how big they get on Earth (a bit like earthquake classifications).
There's a brief bit about potential effects on animals when it gets realy bad which may be worth noting.
edited Dec 20 at 1:16
answered Dec 20 at 0:44
Duckisaduckisaduck
1,232112
1,232112
this is a good start for hypothetical continueous solar flares, a valid solution - now, how to explain such a phenomenon?
– flexneck
Dec 20 at 2:20
3
@flexneck Without going into ludicrous detail, our sun's magnetic field flips polarity every eleven years - which corresponds to the solar maximum of sun spot activity, then there are outliers that produce super storms like the one in 1921 that blacked out 130 million homes. If your sun had a much longer period than our suns 11 years - maybe in the 1000s of years, the extreme disturbances could last for longer, much longer. This would be helped by it being a bigger main sequence star, it's rythyms slower (your goldilocks zone would be somewhat further out).
– Duckisaduckisaduck
Dec 20 at 2:58
@flexneck Or even an non-main sequence star, giants are quite common, distribution wise: en.wikipedia.org/wiki/Main_sequence#/media/File:HRDiagram.png
– Duckisaduckisaduck
Dec 20 at 3:07
This highly active sun will blow away any atmosphere , and then you have silence again at least on the dark side of the planet.
– Karl
Dec 20 at 6:13
Do you think a Wolf-Rayet star would be a good candidate for making that effect on a continuous basis?
– Christmas Snow
yesterday
add a comment |
this is a good start for hypothetical continueous solar flares, a valid solution - now, how to explain such a phenomenon?
– flexneck
Dec 20 at 2:20
3
@flexneck Without going into ludicrous detail, our sun's magnetic field flips polarity every eleven years - which corresponds to the solar maximum of sun spot activity, then there are outliers that produce super storms like the one in 1921 that blacked out 130 million homes. If your sun had a much longer period than our suns 11 years - maybe in the 1000s of years, the extreme disturbances could last for longer, much longer. This would be helped by it being a bigger main sequence star, it's rythyms slower (your goldilocks zone would be somewhat further out).
– Duckisaduckisaduck
Dec 20 at 2:58
@flexneck Or even an non-main sequence star, giants are quite common, distribution wise: en.wikipedia.org/wiki/Main_sequence#/media/File:HRDiagram.png
– Duckisaduckisaduck
Dec 20 at 3:07
This highly active sun will blow away any atmosphere , and then you have silence again at least on the dark side of the planet.
– Karl
Dec 20 at 6:13
Do you think a Wolf-Rayet star would be a good candidate for making that effect on a continuous basis?
– Christmas Snow
yesterday
this is a good start for hypothetical continueous solar flares, a valid solution - now, how to explain such a phenomenon?
– flexneck
Dec 20 at 2:20
this is a good start for hypothetical continueous solar flares, a valid solution - now, how to explain such a phenomenon?
– flexneck
Dec 20 at 2:20
3
3
@flexneck Without going into ludicrous detail, our sun's magnetic field flips polarity every eleven years - which corresponds to the solar maximum of sun spot activity, then there are outliers that produce super storms like the one in 1921 that blacked out 130 million homes. If your sun had a much longer period than our suns 11 years - maybe in the 1000s of years, the extreme disturbances could last for longer, much longer. This would be helped by it being a bigger main sequence star, it's rythyms slower (your goldilocks zone would be somewhat further out).
– Duckisaduckisaduck
Dec 20 at 2:58
@flexneck Without going into ludicrous detail, our sun's magnetic field flips polarity every eleven years - which corresponds to the solar maximum of sun spot activity, then there are outliers that produce super storms like the one in 1921 that blacked out 130 million homes. If your sun had a much longer period than our suns 11 years - maybe in the 1000s of years, the extreme disturbances could last for longer, much longer. This would be helped by it being a bigger main sequence star, it's rythyms slower (your goldilocks zone would be somewhat further out).
– Duckisaduckisaduck
Dec 20 at 2:58
@flexneck Or even an non-main sequence star, giants are quite common, distribution wise: en.wikipedia.org/wiki/Main_sequence#/media/File:HRDiagram.png
– Duckisaduckisaduck
Dec 20 at 3:07
@flexneck Or even an non-main sequence star, giants are quite common, distribution wise: en.wikipedia.org/wiki/Main_sequence#/media/File:HRDiagram.png
– Duckisaduckisaduck
Dec 20 at 3:07
This highly active sun will blow away any atmosphere , and then you have silence again at least on the dark side of the planet.
– Karl
Dec 20 at 6:13
This highly active sun will blow away any atmosphere , and then you have silence again at least on the dark side of the planet.
– Karl
Dec 20 at 6:13
Do you think a Wolf-Rayet star would be a good candidate for making that effect on a continuous basis?
– Christmas Snow
yesterday
Do you think a Wolf-Rayet star would be a good candidate for making that effect on a continuous basis?
– Christmas Snow
yesterday
add a comment |
A mars sized planet would be more difficult for radio because of the enhanced curvature of the surface. A planet with an atmosphere thick with metallic dust also bad.. especially if that meant frequent electrical storms. A planet with a weak magnetic field.. allowing solar particles to penetrate the atmosphere.. basically mars.. with a slightly thicker atmosphere.
2
Mars' features have certainly crossed my mind, and you make excellent points - but none of this makes the use of radio impossible, just less convenient. otherwise we wouldn't be looking at pics from the various rovers..-)
– flexneck
Dec 20 at 0:52
@flexneck true.. I missed your point about signals leaving the planet. What about orbiting dust? A large planet with a thick dusty atmosphere surrounded by a thick cloud of orbiting dust.. so.. a newly formed planet say.
– Richard
Dec 20 at 0:55
again, that would just mean tuning for ideal or even just minimal passage, and you could communicate with a satellite in a higher orbit than the dust
– flexneck
Dec 20 at 1:04
add a comment |
A mars sized planet would be more difficult for radio because of the enhanced curvature of the surface. A planet with an atmosphere thick with metallic dust also bad.. especially if that meant frequent electrical storms. A planet with a weak magnetic field.. allowing solar particles to penetrate the atmosphere.. basically mars.. with a slightly thicker atmosphere.
2
Mars' features have certainly crossed my mind, and you make excellent points - but none of this makes the use of radio impossible, just less convenient. otherwise we wouldn't be looking at pics from the various rovers..-)
– flexneck
Dec 20 at 0:52
@flexneck true.. I missed your point about signals leaving the planet. What about orbiting dust? A large planet with a thick dusty atmosphere surrounded by a thick cloud of orbiting dust.. so.. a newly formed planet say.
– Richard
Dec 20 at 0:55
again, that would just mean tuning for ideal or even just minimal passage, and you could communicate with a satellite in a higher orbit than the dust
– flexneck
Dec 20 at 1:04
add a comment |
A mars sized planet would be more difficult for radio because of the enhanced curvature of the surface. A planet with an atmosphere thick with metallic dust also bad.. especially if that meant frequent electrical storms. A planet with a weak magnetic field.. allowing solar particles to penetrate the atmosphere.. basically mars.. with a slightly thicker atmosphere.
A mars sized planet would be more difficult for radio because of the enhanced curvature of the surface. A planet with an atmosphere thick with metallic dust also bad.. especially if that meant frequent electrical storms. A planet with a weak magnetic field.. allowing solar particles to penetrate the atmosphere.. basically mars.. with a slightly thicker atmosphere.
answered Dec 20 at 0:46
Richard
3366
3366
2
Mars' features have certainly crossed my mind, and you make excellent points - but none of this makes the use of radio impossible, just less convenient. otherwise we wouldn't be looking at pics from the various rovers..-)
– flexneck
Dec 20 at 0:52
@flexneck true.. I missed your point about signals leaving the planet. What about orbiting dust? A large planet with a thick dusty atmosphere surrounded by a thick cloud of orbiting dust.. so.. a newly formed planet say.
– Richard
Dec 20 at 0:55
again, that would just mean tuning for ideal or even just minimal passage, and you could communicate with a satellite in a higher orbit than the dust
– flexneck
Dec 20 at 1:04
add a comment |
2
Mars' features have certainly crossed my mind, and you make excellent points - but none of this makes the use of radio impossible, just less convenient. otherwise we wouldn't be looking at pics from the various rovers..-)
– flexneck
Dec 20 at 0:52
@flexneck true.. I missed your point about signals leaving the planet. What about orbiting dust? A large planet with a thick dusty atmosphere surrounded by a thick cloud of orbiting dust.. so.. a newly formed planet say.
– Richard
Dec 20 at 0:55
again, that would just mean tuning for ideal or even just minimal passage, and you could communicate with a satellite in a higher orbit than the dust
– flexneck
Dec 20 at 1:04
2
2
Mars' features have certainly crossed my mind, and you make excellent points - but none of this makes the use of radio impossible, just less convenient. otherwise we wouldn't be looking at pics from the various rovers..-)
– flexneck
Dec 20 at 0:52
Mars' features have certainly crossed my mind, and you make excellent points - but none of this makes the use of radio impossible, just less convenient. otherwise we wouldn't be looking at pics from the various rovers..-)
– flexneck
Dec 20 at 0:52
@flexneck true.. I missed your point about signals leaving the planet. What about orbiting dust? A large planet with a thick dusty atmosphere surrounded by a thick cloud of orbiting dust.. so.. a newly formed planet say.
– Richard
Dec 20 at 0:55
@flexneck true.. I missed your point about signals leaving the planet. What about orbiting dust? A large planet with a thick dusty atmosphere surrounded by a thick cloud of orbiting dust.. so.. a newly formed planet say.
– Richard
Dec 20 at 0:55
again, that would just mean tuning for ideal or even just minimal passage, and you could communicate with a satellite in a higher orbit than the dust
– flexneck
Dec 20 at 1:04
again, that would just mean tuning for ideal or even just minimal passage, and you could communicate with a satellite in a higher orbit than the dust
– flexneck
Dec 20 at 1:04
add a comment |
This may be considered cheating, but... Make the atmosphere highly noxious.
We take it for granted that our planet has a nice atmosphere and significant protections from solar UV radiation. If the ozone never formed, UV would still be so intense that we would still be stuck in the oceans. Once you're deep enough underwater, the distance radio transmissions can travel is significantly reduced (more so for some frequencies in the low GHz range than others). Long-range transmission would thus be made infeasible not because the signals would be blocked, but because building transmitters in such an environment would be dangerous. The same thing can be done without resorting to an underwater civilization. Imagine a species like ourselves that live on Venus. We would need to live in underground and actively cooled tunnels to avoid the lethal combinations of pressure, acidity, and heat that plague the surface. Transmitters would not survive for much longer either.
this is an excellent cheat:-) but it is only applicable when one assumes that the inhabitants of the radio-inhibited world are humans/oids, with similiar comfort/life parameters to ours. i am looking for physical reasons that would inhibit the use absolutely.
– flexneck
Dec 21 at 0:29
@flexneck A sufficiently noxious atmosphere would be fatal to anything. After all, before the Great Oxygenation Event, everything lived in the ocean to stay out of the lethal UV radiation on the surface. This was long before hominids evolved.
– forest
Dec 21 at 0:32
again, you are assuming that life has to evolve on this world - what about visitors trying to use radio transmissions, even as expendable robots?
– flexneck
Dec 21 at 0:34
add a comment |
This may be considered cheating, but... Make the atmosphere highly noxious.
We take it for granted that our planet has a nice atmosphere and significant protections from solar UV radiation. If the ozone never formed, UV would still be so intense that we would still be stuck in the oceans. Once you're deep enough underwater, the distance radio transmissions can travel is significantly reduced (more so for some frequencies in the low GHz range than others). Long-range transmission would thus be made infeasible not because the signals would be blocked, but because building transmitters in such an environment would be dangerous. The same thing can be done without resorting to an underwater civilization. Imagine a species like ourselves that live on Venus. We would need to live in underground and actively cooled tunnels to avoid the lethal combinations of pressure, acidity, and heat that plague the surface. Transmitters would not survive for much longer either.
this is an excellent cheat:-) but it is only applicable when one assumes that the inhabitants of the radio-inhibited world are humans/oids, with similiar comfort/life parameters to ours. i am looking for physical reasons that would inhibit the use absolutely.
– flexneck
Dec 21 at 0:29
@flexneck A sufficiently noxious atmosphere would be fatal to anything. After all, before the Great Oxygenation Event, everything lived in the ocean to stay out of the lethal UV radiation on the surface. This was long before hominids evolved.
– forest
Dec 21 at 0:32
again, you are assuming that life has to evolve on this world - what about visitors trying to use radio transmissions, even as expendable robots?
– flexneck
Dec 21 at 0:34
add a comment |
This may be considered cheating, but... Make the atmosphere highly noxious.
We take it for granted that our planet has a nice atmosphere and significant protections from solar UV radiation. If the ozone never formed, UV would still be so intense that we would still be stuck in the oceans. Once you're deep enough underwater, the distance radio transmissions can travel is significantly reduced (more so for some frequencies in the low GHz range than others). Long-range transmission would thus be made infeasible not because the signals would be blocked, but because building transmitters in such an environment would be dangerous. The same thing can be done without resorting to an underwater civilization. Imagine a species like ourselves that live on Venus. We would need to live in underground and actively cooled tunnels to avoid the lethal combinations of pressure, acidity, and heat that plague the surface. Transmitters would not survive for much longer either.
This may be considered cheating, but... Make the atmosphere highly noxious.
We take it for granted that our planet has a nice atmosphere and significant protections from solar UV radiation. If the ozone never formed, UV would still be so intense that we would still be stuck in the oceans. Once you're deep enough underwater, the distance radio transmissions can travel is significantly reduced (more so for some frequencies in the low GHz range than others). Long-range transmission would thus be made infeasible not because the signals would be blocked, but because building transmitters in such an environment would be dangerous. The same thing can be done without resorting to an underwater civilization. Imagine a species like ourselves that live on Venus. We would need to live in underground and actively cooled tunnels to avoid the lethal combinations of pressure, acidity, and heat that plague the surface. Transmitters would not survive for much longer either.
answered Dec 20 at 8:18
forest
854216
854216
this is an excellent cheat:-) but it is only applicable when one assumes that the inhabitants of the radio-inhibited world are humans/oids, with similiar comfort/life parameters to ours. i am looking for physical reasons that would inhibit the use absolutely.
– flexneck
Dec 21 at 0:29
@flexneck A sufficiently noxious atmosphere would be fatal to anything. After all, before the Great Oxygenation Event, everything lived in the ocean to stay out of the lethal UV radiation on the surface. This was long before hominids evolved.
– forest
Dec 21 at 0:32
again, you are assuming that life has to evolve on this world - what about visitors trying to use radio transmissions, even as expendable robots?
– flexneck
Dec 21 at 0:34
add a comment |
this is an excellent cheat:-) but it is only applicable when one assumes that the inhabitants of the radio-inhibited world are humans/oids, with similiar comfort/life parameters to ours. i am looking for physical reasons that would inhibit the use absolutely.
– flexneck
Dec 21 at 0:29
@flexneck A sufficiently noxious atmosphere would be fatal to anything. After all, before the Great Oxygenation Event, everything lived in the ocean to stay out of the lethal UV radiation on the surface. This was long before hominids evolved.
– forest
Dec 21 at 0:32
again, you are assuming that life has to evolve on this world - what about visitors trying to use radio transmissions, even as expendable robots?
– flexneck
Dec 21 at 0:34
this is an excellent cheat:-) but it is only applicable when one assumes that the inhabitants of the radio-inhibited world are humans/oids, with similiar comfort/life parameters to ours. i am looking for physical reasons that would inhibit the use absolutely.
– flexneck
Dec 21 at 0:29
this is an excellent cheat:-) but it is only applicable when one assumes that the inhabitants of the radio-inhibited world are humans/oids, with similiar comfort/life parameters to ours. i am looking for physical reasons that would inhibit the use absolutely.
– flexneck
Dec 21 at 0:29
@flexneck A sufficiently noxious atmosphere would be fatal to anything. After all, before the Great Oxygenation Event, everything lived in the ocean to stay out of the lethal UV radiation on the surface. This was long before hominids evolved.
– forest
Dec 21 at 0:32
@flexneck A sufficiently noxious atmosphere would be fatal to anything. After all, before the Great Oxygenation Event, everything lived in the ocean to stay out of the lethal UV radiation on the surface. This was long before hominids evolved.
– forest
Dec 21 at 0:32
again, you are assuming that life has to evolve on this world - what about visitors trying to use radio transmissions, even as expendable robots?
– flexneck
Dec 21 at 0:34
again, you are assuming that life has to evolve on this world - what about visitors trying to use radio transmissions, even as expendable robots?
– flexneck
Dec 21 at 0:34
add a comment |
flexneck is a new contributor. Be nice, and check out our Code of Conduct.
flexneck is a new contributor. Be nice, and check out our Code of Conduct.
flexneck is a new contributor. Be nice, and check out our Code of Conduct.
flexneck is a new contributor. Be nice, and check out our Code of Conduct.
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Hi, flexneck, welcome to Worldbuilding Stack Exchange! Nice question. What technology level would your civilization have? Do they have the tech levels of today, say, or of 1900?
– HDE 226868♦
Dec 20 at 0:40
good point - i am wondering about conditions that would make radio transmissions unfeasible or impossible for any civilization level, ie what would the planetary and possibly local star system conditions have to be like for this to occur (extreme solar radiation comes to mind, but how would that actually look like...)
– flexneck
Dec 20 at 0:47
Hi, @flexneck. Per your previous comment to HDE, I've edited my answer to try to be as broad as possible. Can you provide any additional details on the technology being used?
– Dan
Dec 20 at 1:11
2
Possible duplicate of Can any astronomical phenomenon block/scramble all radio signals from a planet, without making it completely uninhabitable?
– Renan
Dec 20 at 1:25
The question posed as a duplicate is specific to human-inhabited planets. This question asks for something broader (different atmospheres or none at all, implying that it could be an alien planet or one with domes/research/mining/etc). So the other answers may not be sufficient to answer this question.
– Cyn
Dec 20 at 2:09