Possible to detect presence of nuclear bomb?
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Take, for instance, a W-80 nuclear warhead. Does technology exist, say in the form of a satellite or drone, that could detect the warhead's presence (assuming it's not enclosed in some kind of shielding)?
nuclear-physics radiation radioactivity
$endgroup$
add a comment |
$begingroup$
Take, for instance, a W-80 nuclear warhead. Does technology exist, say in the form of a satellite or drone, that could detect the warhead's presence (assuming it's not enclosed in some kind of shielding)?
nuclear-physics radiation radioactivity
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1
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Related: physics.stackexchange.com/q/6906. Short version: it's always enclosed in the shielding provided by the atmosphere.
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– dmckee♦
3 hours ago
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Thanks for that link, @dmckee.
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– birdus
3 hours ago
add a comment |
$begingroup$
Take, for instance, a W-80 nuclear warhead. Does technology exist, say in the form of a satellite or drone, that could detect the warhead's presence (assuming it's not enclosed in some kind of shielding)?
nuclear-physics radiation radioactivity
$endgroup$
Take, for instance, a W-80 nuclear warhead. Does technology exist, say in the form of a satellite or drone, that could detect the warhead's presence (assuming it's not enclosed in some kind of shielding)?
nuclear-physics radiation radioactivity
nuclear-physics radiation radioactivity
edited 3 hours ago
Qmechanic♦
106k121941214
106k121941214
asked 3 hours ago
birdusbirdus
1364
1364
1
$begingroup$
Related: physics.stackexchange.com/q/6906. Short version: it's always enclosed in the shielding provided by the atmosphere.
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– dmckee♦
3 hours ago
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Thanks for that link, @dmckee.
$endgroup$
– birdus
3 hours ago
add a comment |
1
$begingroup$
Related: physics.stackexchange.com/q/6906. Short version: it's always enclosed in the shielding provided by the atmosphere.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
Thanks for that link, @dmckee.
$endgroup$
– birdus
3 hours ago
1
1
$begingroup$
Related: physics.stackexchange.com/q/6906. Short version: it's always enclosed in the shielding provided by the atmosphere.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
Related: physics.stackexchange.com/q/6906. Short version: it's always enclosed in the shielding provided by the atmosphere.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
Thanks for that link, @dmckee.
$endgroup$
– birdus
3 hours ago
$begingroup$
Thanks for that link, @dmckee.
$endgroup$
– birdus
3 hours ago
add a comment |
1 Answer
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$begingroup$
No. It's not even possible to detect one that's inside a suitcase or a shipping container. There's a famous story about how a senator asked Oppenheimer in 1946 whether terrorists could blow up New York this way, or whether there was any tool that could detect the bomb when it was brought into the country. Oppenheimer famously replied, "a screwdriver" -- meaning that you would have to open the box to find out.
Although considerable effort has been dedicated since then to trying to improve detection techniques, highly enriched uranium (HEU) is particularly difficult to detect. It only emits alpha particles, and therefore all you have to do is wrap it in newspaper, and its radiation becomes undetectable.
The APS has a publicly available report on this topic, which goes into some of the physics. There are passive and active methods. Active means that you do something to the material in order to test it, as opposed to just trying to detect the radiation that it's putting out. Re passive detection of HEU:
Currently, passive detection is accomplished primarily by observation of either neutrons and/or photons emitted by spontaneous fission and by photons emitted in radioactive decay and neutron capture. Highly-enriched uranium (HEU) emits a number of relatively intense low-energy gamma rays that are largely absorbed by the material itself and are easily absorbed by most surrounding materials. The more penetrating photons emitted are of low abundance. If the HEU contains reactor-irradiated material, significant contamination by 232U can be found that may be detected through the emission of the 2615-keV gamma ray in the decay of 208Tl. Emission of neutrons from highly enriched uranium (HEU) is quite weak because of the low rate of spontaneous fission.
There are active methods of detection, but they involve radiation that you can't expose people to.
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2
$begingroup$
There are various active tools for detecting concentrations of fissile materials in containers around these days. They are not generally good for biological systems, however, so you have to take the suitcase away from it's owner or scan a shipping container for human cargo before you run the tests.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
@dmckee If a guy had a W-80 in the trunk of his car, does any technology exist that could find him as he drove down the highway? Just trying not to sound like an idiot for the sake of my novel.
$endgroup$
– birdus
3 hours ago
2
$begingroup$
@birdus All the techniques I know of (x- and gamma-ray back scatter, neutron fluorescence, etc..) would imposes a non-trivial ionizing radiation dose on every person driving down the road. This stuff saw a huge jump in funding starting in 2002, but it's not a easy problem and the "working" systems all have a problem with false positives. They count on being able to re-scan more slowly when the big red light turns on to sort out real event from statistical fluctuations (which cause essentially all the positive results).
$endgroup$
– dmckee♦
3 hours ago
add a comment |
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1 Answer
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$begingroup$
No. It's not even possible to detect one that's inside a suitcase or a shipping container. There's a famous story about how a senator asked Oppenheimer in 1946 whether terrorists could blow up New York this way, or whether there was any tool that could detect the bomb when it was brought into the country. Oppenheimer famously replied, "a screwdriver" -- meaning that you would have to open the box to find out.
Although considerable effort has been dedicated since then to trying to improve detection techniques, highly enriched uranium (HEU) is particularly difficult to detect. It only emits alpha particles, and therefore all you have to do is wrap it in newspaper, and its radiation becomes undetectable.
The APS has a publicly available report on this topic, which goes into some of the physics. There are passive and active methods. Active means that you do something to the material in order to test it, as opposed to just trying to detect the radiation that it's putting out. Re passive detection of HEU:
Currently, passive detection is accomplished primarily by observation of either neutrons and/or photons emitted by spontaneous fission and by photons emitted in radioactive decay and neutron capture. Highly-enriched uranium (HEU) emits a number of relatively intense low-energy gamma rays that are largely absorbed by the material itself and are easily absorbed by most surrounding materials. The more penetrating photons emitted are of low abundance. If the HEU contains reactor-irradiated material, significant contamination by 232U can be found that may be detected through the emission of the 2615-keV gamma ray in the decay of 208Tl. Emission of neutrons from highly enriched uranium (HEU) is quite weak because of the low rate of spontaneous fission.
There are active methods of detection, but they involve radiation that you can't expose people to.
$endgroup$
2
$begingroup$
There are various active tools for detecting concentrations of fissile materials in containers around these days. They are not generally good for biological systems, however, so you have to take the suitcase away from it's owner or scan a shipping container for human cargo before you run the tests.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
@dmckee If a guy had a W-80 in the trunk of his car, does any technology exist that could find him as he drove down the highway? Just trying not to sound like an idiot for the sake of my novel.
$endgroup$
– birdus
3 hours ago
2
$begingroup$
@birdus All the techniques I know of (x- and gamma-ray back scatter, neutron fluorescence, etc..) would imposes a non-trivial ionizing radiation dose on every person driving down the road. This stuff saw a huge jump in funding starting in 2002, but it's not a easy problem and the "working" systems all have a problem with false positives. They count on being able to re-scan more slowly when the big red light turns on to sort out real event from statistical fluctuations (which cause essentially all the positive results).
$endgroup$
– dmckee♦
3 hours ago
add a comment |
$begingroup$
No. It's not even possible to detect one that's inside a suitcase or a shipping container. There's a famous story about how a senator asked Oppenheimer in 1946 whether terrorists could blow up New York this way, or whether there was any tool that could detect the bomb when it was brought into the country. Oppenheimer famously replied, "a screwdriver" -- meaning that you would have to open the box to find out.
Although considerable effort has been dedicated since then to trying to improve detection techniques, highly enriched uranium (HEU) is particularly difficult to detect. It only emits alpha particles, and therefore all you have to do is wrap it in newspaper, and its radiation becomes undetectable.
The APS has a publicly available report on this topic, which goes into some of the physics. There are passive and active methods. Active means that you do something to the material in order to test it, as opposed to just trying to detect the radiation that it's putting out. Re passive detection of HEU:
Currently, passive detection is accomplished primarily by observation of either neutrons and/or photons emitted by spontaneous fission and by photons emitted in radioactive decay and neutron capture. Highly-enriched uranium (HEU) emits a number of relatively intense low-energy gamma rays that are largely absorbed by the material itself and are easily absorbed by most surrounding materials. The more penetrating photons emitted are of low abundance. If the HEU contains reactor-irradiated material, significant contamination by 232U can be found that may be detected through the emission of the 2615-keV gamma ray in the decay of 208Tl. Emission of neutrons from highly enriched uranium (HEU) is quite weak because of the low rate of spontaneous fission.
There are active methods of detection, but they involve radiation that you can't expose people to.
$endgroup$
2
$begingroup$
There are various active tools for detecting concentrations of fissile materials in containers around these days. They are not generally good for biological systems, however, so you have to take the suitcase away from it's owner or scan a shipping container for human cargo before you run the tests.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
@dmckee If a guy had a W-80 in the trunk of his car, does any technology exist that could find him as he drove down the highway? Just trying not to sound like an idiot for the sake of my novel.
$endgroup$
– birdus
3 hours ago
2
$begingroup$
@birdus All the techniques I know of (x- and gamma-ray back scatter, neutron fluorescence, etc..) would imposes a non-trivial ionizing radiation dose on every person driving down the road. This stuff saw a huge jump in funding starting in 2002, but it's not a easy problem and the "working" systems all have a problem with false positives. They count on being able to re-scan more slowly when the big red light turns on to sort out real event from statistical fluctuations (which cause essentially all the positive results).
$endgroup$
– dmckee♦
3 hours ago
add a comment |
$begingroup$
No. It's not even possible to detect one that's inside a suitcase or a shipping container. There's a famous story about how a senator asked Oppenheimer in 1946 whether terrorists could blow up New York this way, or whether there was any tool that could detect the bomb when it was brought into the country. Oppenheimer famously replied, "a screwdriver" -- meaning that you would have to open the box to find out.
Although considerable effort has been dedicated since then to trying to improve detection techniques, highly enriched uranium (HEU) is particularly difficult to detect. It only emits alpha particles, and therefore all you have to do is wrap it in newspaper, and its radiation becomes undetectable.
The APS has a publicly available report on this topic, which goes into some of the physics. There are passive and active methods. Active means that you do something to the material in order to test it, as opposed to just trying to detect the radiation that it's putting out. Re passive detection of HEU:
Currently, passive detection is accomplished primarily by observation of either neutrons and/or photons emitted by spontaneous fission and by photons emitted in radioactive decay and neutron capture. Highly-enriched uranium (HEU) emits a number of relatively intense low-energy gamma rays that are largely absorbed by the material itself and are easily absorbed by most surrounding materials. The more penetrating photons emitted are of low abundance. If the HEU contains reactor-irradiated material, significant contamination by 232U can be found that may be detected through the emission of the 2615-keV gamma ray in the decay of 208Tl. Emission of neutrons from highly enriched uranium (HEU) is quite weak because of the low rate of spontaneous fission.
There are active methods of detection, but they involve radiation that you can't expose people to.
$endgroup$
No. It's not even possible to detect one that's inside a suitcase or a shipping container. There's a famous story about how a senator asked Oppenheimer in 1946 whether terrorists could blow up New York this way, or whether there was any tool that could detect the bomb when it was brought into the country. Oppenheimer famously replied, "a screwdriver" -- meaning that you would have to open the box to find out.
Although considerable effort has been dedicated since then to trying to improve detection techniques, highly enriched uranium (HEU) is particularly difficult to detect. It only emits alpha particles, and therefore all you have to do is wrap it in newspaper, and its radiation becomes undetectable.
The APS has a publicly available report on this topic, which goes into some of the physics. There are passive and active methods. Active means that you do something to the material in order to test it, as opposed to just trying to detect the radiation that it's putting out. Re passive detection of HEU:
Currently, passive detection is accomplished primarily by observation of either neutrons and/or photons emitted by spontaneous fission and by photons emitted in radioactive decay and neutron capture. Highly-enriched uranium (HEU) emits a number of relatively intense low-energy gamma rays that are largely absorbed by the material itself and are easily absorbed by most surrounding materials. The more penetrating photons emitted are of low abundance. If the HEU contains reactor-irradiated material, significant contamination by 232U can be found that may be detected through the emission of the 2615-keV gamma ray in the decay of 208Tl. Emission of neutrons from highly enriched uranium (HEU) is quite weak because of the low rate of spontaneous fission.
There are active methods of detection, but they involve radiation that you can't expose people to.
edited 3 hours ago
answered 3 hours ago
Ben CrowellBen Crowell
52.7k6162306
52.7k6162306
2
$begingroup$
There are various active tools for detecting concentrations of fissile materials in containers around these days. They are not generally good for biological systems, however, so you have to take the suitcase away from it's owner or scan a shipping container for human cargo before you run the tests.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
@dmckee If a guy had a W-80 in the trunk of his car, does any technology exist that could find him as he drove down the highway? Just trying not to sound like an idiot for the sake of my novel.
$endgroup$
– birdus
3 hours ago
2
$begingroup$
@birdus All the techniques I know of (x- and gamma-ray back scatter, neutron fluorescence, etc..) would imposes a non-trivial ionizing radiation dose on every person driving down the road. This stuff saw a huge jump in funding starting in 2002, but it's not a easy problem and the "working" systems all have a problem with false positives. They count on being able to re-scan more slowly when the big red light turns on to sort out real event from statistical fluctuations (which cause essentially all the positive results).
$endgroup$
– dmckee♦
3 hours ago
add a comment |
2
$begingroup$
There are various active tools for detecting concentrations of fissile materials in containers around these days. They are not generally good for biological systems, however, so you have to take the suitcase away from it's owner or scan a shipping container for human cargo before you run the tests.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
@dmckee If a guy had a W-80 in the trunk of his car, does any technology exist that could find him as he drove down the highway? Just trying not to sound like an idiot for the sake of my novel.
$endgroup$
– birdus
3 hours ago
2
$begingroup$
@birdus All the techniques I know of (x- and gamma-ray back scatter, neutron fluorescence, etc..) would imposes a non-trivial ionizing radiation dose on every person driving down the road. This stuff saw a huge jump in funding starting in 2002, but it's not a easy problem and the "working" systems all have a problem with false positives. They count on being able to re-scan more slowly when the big red light turns on to sort out real event from statistical fluctuations (which cause essentially all the positive results).
$endgroup$
– dmckee♦
3 hours ago
2
2
$begingroup$
There are various active tools for detecting concentrations of fissile materials in containers around these days. They are not generally good for biological systems, however, so you have to take the suitcase away from it's owner or scan a shipping container for human cargo before you run the tests.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
There are various active tools for detecting concentrations of fissile materials in containers around these days. They are not generally good for biological systems, however, so you have to take the suitcase away from it's owner or scan a shipping container for human cargo before you run the tests.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
@dmckee If a guy had a W-80 in the trunk of his car, does any technology exist that could find him as he drove down the highway? Just trying not to sound like an idiot for the sake of my novel.
$endgroup$
– birdus
3 hours ago
$begingroup$
@dmckee If a guy had a W-80 in the trunk of his car, does any technology exist that could find him as he drove down the highway? Just trying not to sound like an idiot for the sake of my novel.
$endgroup$
– birdus
3 hours ago
2
2
$begingroup$
@birdus All the techniques I know of (x- and gamma-ray back scatter, neutron fluorescence, etc..) would imposes a non-trivial ionizing radiation dose on every person driving down the road. This stuff saw a huge jump in funding starting in 2002, but it's not a easy problem and the "working" systems all have a problem with false positives. They count on being able to re-scan more slowly when the big red light turns on to sort out real event from statistical fluctuations (which cause essentially all the positive results).
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
@birdus All the techniques I know of (x- and gamma-ray back scatter, neutron fluorescence, etc..) would imposes a non-trivial ionizing radiation dose on every person driving down the road. This stuff saw a huge jump in funding starting in 2002, but it's not a easy problem and the "working" systems all have a problem with false positives. They count on being able to re-scan more slowly when the big red light turns on to sort out real event from statistical fluctuations (which cause essentially all the positive results).
$endgroup$
– dmckee♦
3 hours ago
add a comment |
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$begingroup$
Related: physics.stackexchange.com/q/6906. Short version: it's always enclosed in the shielding provided by the atmosphere.
$endgroup$
– dmckee♦
3 hours ago
$begingroup$
Thanks for that link, @dmckee.
$endgroup$
– birdus
3 hours ago