Laser Artillery Antimateriel Firepower | Asteroid Destruction

 

Asteroid Destruction by Starfighter Laser Weaponry

Starfighter laser cannons provide enough firepower to blast apart buildings & asteroids many times more massive than the fighters themselves. Destructive capacity in the demolition of asteroids may be indicative of the weapons magnitude & energy requirements[¹]: 

" From "Deflection and Fragmentation of Near Earth Asteroids" by T.J. Ahrens and A.W. Harris, it is projected that a 1 kiloton buried explosive will fragment a 100m diameter asteroid (based on experiments with terrestrial igneous rock), a 1 megaton explosive will fragment a 1km diameter asteroid, and a 1 gigaton explosive will fragment a 10km diameter asteroid. Using these figures as a basis, we can produce an approximation Y = (d/100)³, where d is diameter in metres and Y is yield in kilotons." - Asteroid Destruction Calculator

 

Technical Premise

Technical Premise

Table A Asteroid Destruction

Based on experiments with terrestrial igneous rock It is projected that a 1 kiloton explosive will fragment a 100m diameter asteroid, a 1 megaton explosive will fragment a 1km asteroid, and a 1 gigaton explosive will fragment a 10km diameter asteroid[¹], correlating to a 'rule-of-thumb' approximation Y = (d/100)³, where d is diameter in metres and Y is yield in kilotons.This approximation assumes the explosives are buried for efficient distribution of energy into the surrounding rocky mass, and it may require greater energy to destroy the same asteroids using less effectively positioned explosives.

 

Table A extrapolates the explosive power required to destroy rock asteroids of 10 meters through to 100 meters in diameter fromY = (d/100)

Ice asteroids are less than half as massive as similar sized rock asteroids and require some tens of times (an order of magnitude) less energy to completely demolish[²]. 

TIE/rb | H-s9.3 twin laser cannons

TIE/rb | H-s9.3 twin laser cannons

 

"    According to the SW2ICS, the midship guns have a per-shot yield of 2 kilotons, which would be enough to pulverize a well-consolidated 100-150 metre wide asteroid, assuming that the force-coupling efficiency of an energy bolt is equal to the force-coupling efficiency of a centrally buried chemical explosive. Of course, this is not the case, nor is it even close, so the 100-150 metre figure should be treated as an extremely generous estimate. An energy beam primarily heats the target, and the only form of force coupling is secondary, through gas expansion caused by rapid vapourization. Realistically, a 2 kiloton energy beam of perhaps 0.01 second duration would probably be limited to fragmenting an asteroid of only a few dozen metres in size rather than 100-150 (with a lot of heating, melting, and vapourization), which is closer to what we see in the film. "  - Star Wars Episode II: Revelations #2: The Technology

Apparent width of asteroid: ~ 70-80 m

Apparent height of asteroid: ~112 meters

Average diameter of asteroid: ~ 96 meters

Likely mass of asteroid: 300-500 thousand tonnes

 

The video footage shows a heavy TIE/rb-("brute") fighter equipped with a rapid fire H-s9.3 twin laser cannon destroy two massive asteroids in succession[¹]. The first asteroid was around a hundred meters wide  (~ 260 ft by 367 ft) , it completely dwarfed the Millennium Falcon, and it would have weighed over half a million tonnes amusing a typical rocky composition prior to its destruction. Y= (d/100) suggests an explosive force equivalent to between half a kiloton and 1 kiloton TNT might fragment such a massive rock, so as the asteroid was completely destroyed in three shots the explosive-anti-materiel equivalent (Explo-AM Equiv. Yield) of each individual blast is in the range of 670 gigajoules (170 tonnes TNT) to 1.39 terajoules (333 tons TNT).

A more conservative estimate can be derived by calculating as if each shot could individually blast-apart an asteroid closer to 30 meters diameter, so that a three shot burst might cumulatively blast-apart a larger ~100 meter asteroid; this would reduce approximate per shot Explo-AM Equiv. Yield to ~110 gigajoules (27 tonnes TNT).

If the asteroid was composed mostly of ice rather than rock then it would have weighed considerably less, closer to three-hundred thousand tonnesand required an order of magnitude less energy to destruct. The "Asteroid Destruction Calculator" indicates a ~100 gigajoule (24 ton TNT) explosive force might totally fragment such an iceberg, translating to a per shot Explo-AM-equiv. yield of ~33 gigajoules

This set of estimates ranges by an order of magnitude from 33 gigajoules (low end) to 1,390 gigajoules (high end) in per-shot explosive anti-materiel-equivalence. The fire-rate of the ​H-s9.3 twin laser cannon is 300 shots per minute even at this magnitude[¹], so the sustained (time average) firepower of the weapon is on the order of 165 (low end) to 7,000 (high-end) gigawatts.

Data File

Data File

Weapon System

Weapon System: H-s9.3 twin laser cannons

Mount: 

Platform: TIE/rb-"brute" heavy starfighter (twin-cannon pod-mount)

 

Fire Rate per minute:

Fire Rate per minute: >300

Explosive-anti-materiel-equivalent Yield 

Explosive-anti-materiel-equivalent Yield per shot

High-est = 1,390 gigajoules (333 tons TNT)

Low--est = 33 gigajoules (8 tons TNT)

Power Requirements

Power Requirements

High-est = 7,000 gigawatts

Low--est = 165 gigawatts

 

Scale Comparison

Comparison to Earth

 

 Scale compares Portland House and the iconic White House buildings on Earth to the larger of two asteroids destroyed by a H-s9.3 twin laser cannon

A short barrage from a H-s9.3 twin laser cannon can obliterate a one hundred meter wide asteroid so it's not unreasonable to speculate that the H-s9.3 twin laser cannon might just as easily demolish a city block: 

 "Since the spacing of streets in grid plans varies so widely among cities, or even within cities, it is difficult to generalize about the size of a city block. However, as reference points for US cities, the standard square blocks of Portland, Houston, and Sacramento are 264 by 264 feet (80 m × 80 m), 330 by 330 feet (100 m × 100 m), and 410 by 410 feet (120 m × 120 m) respectively (to the street center line)." - Wikipedia

"Engineers use a typical city block as 100,000 sq. ft. for calculation estimates, which is about 17 blocks per mile" - How Big is a City Block? 

The most powerful non-nuclear weapons on Earth include the "American GBU-43/B Massive Ordnance Air Blast" (MOAB, commonly known as "Mother of All Bombs") and the "Russian Aviation Thermobaric Bomb of Increased Power" (ATBIP) nicknamed "Father of All Bombs" (FOAB). The respective yields of these weapons are theoretically sufficient to demolish rock-asteroids between 22 meters and 36 meters in diameter, weighing up to 20,000 tonnes. In this regard the H-s9.3 twin laser cannon may possess even greater anti-materiel destructive firepower than the most-powerful non-nuclear weapons available on Earth, as a short barrage from the weapon could destroy a much larger asteroid weighing closer to half a million tonnes. 

 

Slave 1 | midship laser cannon

Slave 1 | midship laser cannons

 

 

"Unlike its seismic charges, Slave-1's midship guns were clearly designed for ship to ship combat. Their rate of fire was quite high (I estimate one shot every 3 frames at 24 fps, which averages out to roughly 480 shots per minute), which is appropriate for that task. It is unknown whether the firing rate of these guns is linked to their yield (ie- if the high refire rate comes at a cost in per-shot yield). However, at the yield setting used in this incident, each shot was capable of pulverizing asteroids larger than Obi-Wan's starfighter."- Star Wars Episode II: Revelations #2: The Technology

Power is defined as energy over time and is expressed in Watts (W) where one Watt is equal to one Joule (J) per second, so if Slave I's laser cannons achieve a maximum per shot yield of, for example, 4 gigajoules, maybe sufficient for the demotion of multi-meter rock-asteroids, and a fire-rate of 480 shots per minute, then the time-average power-output is 32 gigawatts. The weapons power requirements necessitate an energy source many orders of magnitude more productive than nuclear-fission; for comparison the Bruce Nuclear Generating Station is the largest nuclear power station by total output currently operating on Earth, as it occupies 9.3 square kilometres of land and yields a peak production of around 6 gigawatts, just a small fraction of the power needed to operate Slave 1's midship gun at this magnitude.

 

The heaviest turbolasers aboard an Imperial MKI 'Imperator'-class star destroyer are mounted in fifty meter wide turrets, each one around ten-thousand times more massive & more powerful than the H-s9.3 twin laser cannon on a TIE/rb starfighter. Assuming destructive ability scales accordingly then the heaviest turbolaser on a star destroyer might obliterate an asteroid that is over two-thousand meters wide & which weighs billions of tonnes. Destruction of the multi-kilometre asteroid correlates to an Expl-AM Equiv. Yield of ~10 megatons. 

 

Turbolaser Artillery | scale comparison

Turbolaser Artillery | scale comparison

 

  • Imperial MKI 'Imperator'-class star destroyer, heavy turbolaser

  • Arquitens-class heavy quad laser battery

  • TIE/rb starfighter

  • AT AT heavy laser cannons

 

 

References

References

 

Star Wars References

  1. SOLO: A Star Wars Story

  2. STAR WARS Episode II Attack of the Clones

Technical References

  1. Deflection and Fragmentation of Near Earth Asteroids" by T.J. Ahrens and A.W. Harris

  2. The Asteroid Destruction Calculator 

  3. Star Wars Episode II: Revelations #2: The Technology by Mike Wong (mechanical engineer)

External Links

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GALLERY Asteroid Destruction by Starfighter Blaster Weaponry

 
 
 
 
 

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Asteroid destruction by TIE fighter