Users browsing this forum: Google [Bot] and 67 guests
Bomb Pumped Gamma Ray lasers | |
---|---|
by captinjoehenry » Tue Jun 21, 2016 12:47 am | |
captinjoehenry
Posts: 147
|
So I know that the current weapons are all bomb pumped x-ray lasers but there was some research into bomb pumped Gamma ray weapons. I would imagine that the shorter wave length and higher energy of a bomb pumped gamma ray weapon might be a good development. Mind you I am not sure on most of the details other than the fact that they were studied.
|
Top |
Re: Bomb Pumped Gamma Ray lasers | |
---|---|
by darrell » Tue Jun 21, 2016 2:12 am | |
darrell
Posts: 1390
|
A Graser is a gamma ray laser. My guess is that it requires enough of a higher threshold to start the lasing action that for a bomb pumped weapon, an x-ray laser is more powerful. If that is the case, put a big enough warhead and a powerful enough grav lense and the system defense missiles might be able to go with grasing rods. <><><><><><><><><><><><>
Logic: an organized way to go wrong, with confidence. |
Top |
Re: Bomb Pumped Gamma Ray lasers | |
---|---|
by kzt » Tue Jun 21, 2016 3:19 am | |
kzt
Posts: 11360
|
Last I knew there is no theoretical mechanism to produce a gamma ray laser.
|
Top |
Re: Bomb Pumped Gamma Ray lasers | |
---|---|
by captinjoehenry » Tue Jun 21, 2016 1:16 pm | |
captinjoehenry
Posts: 147
|
Here is a section from Atomic Rockets about bomb pumped gamma ray lasers:
So bomb pumped gamma ray lasers are definitely a possibility even with a warhead yield as low as one kiloton. So I would assume that the much higher yield available to Honorverse would allow for some seriously impressive bomb pumped gamma ray lasers that could represent a major increase in the destructive potential of every missile system currently employed. |
Top |
Re: Bomb Pumped Gamma Ray lasers | |
---|---|
by Louis R » Wed Jun 22, 2016 12:34 pm | |
Louis R
Posts: 1298
|
That doesn't necessarily follow: you _can't_ make those needles larger - self-absorption is already soaking up better than 90% of the emission - so you need to use a lot more of them, making dispersion, targeting and alignment orders of magnitude more difficult. To the point where I would judge it completely impractical to build such a warhead. You can't simply focus more of the warhead output onto a small number of small emitters because past a certain point [which I strongly suspect that 1kT nudet was approaching] dumping more energy into the package just destroys it more quickly, and eventually it goes poof before you get any useful output at all.
Of course, there's also the problem that this _isn't_ a graser package in Honorverse terms anyway. There are two distinct ways to define 'gamma radiation'. The original, physical definition is that it is electromagnetic radiation generated by processes within the nucleus, while x-rays are generated by processes involving the electrons outside the nucleus. The alternative definition, currently used primarily by astronomers, makes it a section of the electromagnetic spectrum harder than x-rays, which are themselves somewhat arbitrarily defined as harder that ultraviolet radiation. There are transitions in the way photons interact with matter at the boundaries that affect instrument and detector design, but the borders are rather fuzzy to say the least. What matters here is that in the Honorverse 'gamma ray' is defined as having a wavelength <1pm, or alternatively energy > ~1.2MeV [which is actually a lot higher than the current value]. The device below is clearly being described by the physical definition since it produces radiation at 6.3keV. This would be fairly typical of a bomb-pumped graser. There are doubtless much more energetic metastable nuclear transitions that could populate an upper laser level, but not a lot of them if the Mossbauer effect is a necessary element. Also, there simply aren't enough hard photons generated by a nudet of any size to create a useful population inversion at high energies - this is a matter of radiation physics, not subject to being 'fixed' by handwavium. Without doing a lot of searching for data that, for the most part, is unpublished even if anybody has bothered to measure it, I can't be sure, but my guess is that the highest energy nuclear transitions that would generate useful output would be in the 40-50keV range, and I may well be optimistic on that. The author of "An Introduction to Modern Starship Armor Design" speculates that the RMN's Mk73 laser assembly generates radiation at ~125keV. This is some 20 times the energy of the tested device, and 2-3x my guesstimate, and it's the energy range Honorverse warships are designed to withstand. Lower-energy weapons aren't going to serve much purpose. Higher-energy weapons certainly would, but the referenced article states that there is no reason to believe that stimulated-emission grasers are or ever will be physically possible. [And repeatedly makes the point that most '-asers' in the Honorverse _don't_ use stimulated emission physics]
|
Top |
Re: Bomb Pumped Gamma Ray lasers | |
---|---|
by kzt » Wed Jun 22, 2016 12:47 pm | |
kzt
Posts: 11360
|
That is Andrew, the same one cited above in the thread. His employer doesn't mind his SF hobby, but apparently doesn't want his name attributed to it formally. |
Top |
Re: Bomb Pumped Gamma Ray lasers | |
---|---|
by captinjoehenry » Wed Jun 22, 2016 12:59 pm | |
captinjoehenry
Posts: 147
|
Thanks for this post. What you said makes sense for why such a weapon is not in use. |
Top |
Re: Bomb Pumped Gamma Ray lasers | |
---|---|
by Louis R » Wed Jun 22, 2016 1:12 pm | |
Louis R
Posts: 1298
|
By author, I actually meant the nominal Honorverse personage, with his implied familiarity with in-universe capabilities.
Under the circumstances I think we can take his doubts about the feasibility of bomp-pumped grasers, as defined in the Honorverse, as canon. BTW, part of the problem is that the dual definitions lead to some confusion about just how powerful gamma radiation is. A suitably-goosed electron can emit photons more energetic than the binding energy of a nucleus, so there is a complete overlap in the energy range involved if you're using the physical definitions. [And yes, if you were wondering, those photons can smash a nucleus into fragments or even component particles. The process is called photodisintegration.]
|
Top |