Shroom Man 777 wrote:
Don't the Europeans have an artillery system wherein multiple guns fire simultaneously in quick succession precisely at a single target? If all guns fire first rounds that have ablative coating, but the succeeding rounds aren't coated, while the lasers take more time in destroying the first coated shells (that become less accurate when their coating is destroyed), it would buy time for the rest of the rounds to hit?
Firing multiple guns to achieve a simultaneous impact is called a time on target and was invented by the US Army in WW2. Today any digital fire control computer (you can attach these to towed guns as well as fancy self propelled ones) can easily allow gun crews to shoot a time on target mission. Back in WW2 we had to do it all by hand, and yet in one case it took only 1 hour to do the math to allow all the artillery of an entire US Army to shoot a TOT at a single Italian town held by the Germans.
So anyway what you may be thinking of is multiple round simultaneous impact. With this tactic a howitzer with a variable propellant charge can shoot several shells at different angles and different velocities. The longer trajectories are given to the first shells fired ect... resulting in anything from four to eight shells from one howitzer impacting in the space of less then 10 seconds. Pz2000 and a few other systems can do this; the exact number of rounds that can be fired with this tactic depends on the range to target and the performance of the howitzer.
This is however not a great counter to a laser anti artillery system. The reason being that while the shells impact at almost the same time, they are still not fired at the same time and the first ones fired will be lofted excessively high, increasing time of flight and thus enemy engagement time. That is not good.
The ideal counter (besides using multiple rocket launchers for epic levels of ammo spam,) is to use a high velocity lower angle shooting gun instead of a howitzer to reduce time of flight to the utter minimal. The short lines of sight also reduce the number of enemy laser units which will be able to fire at all. Firing at low angle has the inherent disadvantage when firing conventional ammunition the shells will also arrive at a low angle and thus cannot search behind obstructs like hills or plow deeply into the ground to destroy entrenchments. Thus the whole reason for howitzers in the first place.
However using advanced guided shells, which are likely to be standard within the next 20 years, let alone the next several hundred, this limitation no longer applies. A guided shell with pop out wings like ERGM can make radical changes in direction, allowing it to dive vertically on a target after spending most of its flight time in a relatively horizontal glide. Technology like this should be quite able to allow a future low angle guns to fulfill most of the roles now requiring mortars or howitzer.
If scramjet shells ever work, something physically unlikely but far more plausible then interstellar warfare in the first place, then this will work all the better since a scram shell might actually continue accelerating after its fired (modern tank guns can launch projectiles to about mach 5.2 already) and the shockwave from a low angle shot alone would kill people and collapse weak structures.
Other options for nullifying laser defenses might center on using new submuntions designs, kinetic or explosive, which can be released very early in a shells flight and still reach the target area. That way one shell can turn into a couple targets, confusing and swamping the defenses and making a kill evaluation much more difficult.
"This cult of special forces is as sensible as to form a Royal Corps of Tree Climbers and say that no soldier who does not wear its green hat with a bunch of oak leaves stuck in it should be expected to climb a tree"
— Field Marshal William Slim 1956
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- PeZook
